WO2014010407A1 - Traffic-information delivery system and traffic information delivery method - Google Patents

Traffic-information delivery system and traffic information delivery method Download PDF

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Publication number
WO2014010407A1
WO2014010407A1 PCT/JP2013/067330 JP2013067330W WO2014010407A1 WO 2014010407 A1 WO2014010407 A1 WO 2014010407A1 JP 2013067330 W JP2013067330 W JP 2013067330W WO 2014010407 A1 WO2014010407 A1 WO 2014010407A1
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WO
WIPO (PCT)
Prior art keywords
information
terminal device
area
road
traffic information
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PCT/JP2013/067330
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French (fr)
Japanese (ja)
Inventor
照久 高野
真史 安原
秋彦 香西
Original Assignee
日産自動車株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by 日産自動車株式会社 filed Critical 日産自動車株式会社
Priority to JP2014524722A priority Critical patent/JP5862777B2/en
Publication of WO2014010407A1 publication Critical patent/WO2014010407A1/en

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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W64/00Locating users or terminals or network equipment for network management purposes, e.g. mobility management
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/005Traffic control systems for road vehicles including pedestrian guidance indicator
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01CMEASURING DISTANCES, LEVELS OR BEARINGS; SURVEYING; NAVIGATION; GYROSCOPIC INSTRUMENTS; PHOTOGRAMMETRY OR VIDEOGRAMMETRY
    • G01C21/00Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00
    • G01C21/26Navigation; Navigational instruments not provided for in groups G01C1/00 - G01C19/00 specially adapted for navigation in a road network
    • G01C21/34Route searching; Route guidance
    • G01C21/36Input/output arrangements for on-board computers
    • G01C21/3691Retrieval, searching and output of information related to real-time traffic, weather, or environmental conditions
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/09Arrangements for giving variable traffic instructions
    • G08G1/0962Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages
    • G08G1/09626Arrangements for giving variable traffic instructions having an indicator mounted inside the vehicle, e.g. giving voice messages where the origin of the information is within the own vehicle, e.g. a local storage device, digital map
    • GPHYSICS
    • G08SIGNALLING
    • G08GTRAFFIC CONTROL SYSTEMS
    • G08G1/00Traffic control systems for road vehicles
    • G08G1/16Anti-collision systems
    • G08G1/164Centralised systems, e.g. external to vehicles
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B29/00Maps; Plans; Charts; Diagrams, e.g. route diagram
    • G09B29/003Maps
    • G09B29/006Representation of non-cartographic information on maps, e.g. population distribution, wind direction, radiation levels, air and sea routes
    • G09B29/007Representation of non-cartographic information on maps, e.g. population distribution, wind direction, radiation levels, air and sea routes using computer methods
    • GPHYSICS
    • G09EDUCATION; CRYPTOGRAPHY; DISPLAY; ADVERTISING; SEALS
    • G09BEDUCATIONAL OR DEMONSTRATION APPLIANCES; APPLIANCES FOR TEACHING, OR COMMUNICATING WITH, THE BLIND, DEAF OR MUTE; MODELS; PLANETARIA; GLOBES; MAPS; DIAGRAMS
    • G09B29/00Maps; Plans; Charts; Diagrams, e.g. route diagram
    • G09B29/10Map spot or coordinate position indicators; Map reading aids
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/02Services making use of location information
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/02Services making use of location information
    • H04W4/021Services related to particular areas, e.g. point of interest [POI] services, venue services or geofences
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/30Services specially adapted for particular environments, situations or purposes
    • H04W4/40Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P]
    • H04W4/48Services specially adapted for particular environments, situations or purposes for vehicles, e.g. vehicle-to-pedestrians [V2P] for in-vehicle communication
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04WWIRELESS COMMUNICATION NETWORKS
    • H04W4/00Services specially adapted for wireless communication networks; Facilities therefor
    • H04W4/02Services making use of location information
    • H04W4/023Services making use of location information using mutual or relative location information between multiple location based services [LBS] targets or of distance thresholds
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

Definitions

  • the present invention relates to a traffic information providing system and a traffic information providing method for providing road traffic information.
  • This application is based on Japanese patent applications filed on July 11, 2012: (1) Japanese Patent Application No. 2012-155229, (2) Japanese Patent Application No. 2012-155230, (3) Japanese Patent Application No. 2012-155231, (4)
  • Japanese Patent Application No. 2012-155232 For designated countries that claim priority based on Japanese Patent Application No. 2012-155232 and (5) Japanese Patent Application No. 2012-155233, and which are permitted to be incorporated by reference to the literature, the contents described in the above application are referred to It is incorporated into the application and is part of the description of this application.
  • the problem to be solved by the present invention is to reduce the power consumption of the terminal device on the mobile body side when providing traffic information including the movement of the mobile body other than the host vehicle.
  • the present invention determines whether or not a terminal device exists within a position detection area including a specific intersection based on the communication status, causes the terminal device existing within the position detection area to detect position information,
  • the above-mentioned problem is solved by determining whether or not the information exists within the information transmission area set with reference to the specific intersection, and causing the terminal device existing within the information transmission area to transmit the detected position information to the server.
  • the present invention it is possible to collect the position information of the terminal device existing in the vicinity of the specific intersection even if the position detecting means is not always activated. As a result, in the case of providing traffic information in the vicinity of an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
  • FIG. 1 It is a figure showing the whole traffic information offer system outline. It is a figure which shows the operation example of a traffic information provision system. It is a block block diagram of each apparatus. It is a flowchart for demonstrating the control procedure of the traffic information provision system of this embodiment. It is a figure for demonstrating the position detection area T, the information transmission area P, and the specific intersection S. FIG. It is a figure for demonstrating the positional relationship of the position detection area T, the information transmission area P, and the specific intersection S.
  • FIG. It is a flowchart of the process which calculates an information transmission area according to the moving speed of a moving body. It is a figure which shows the concept of each area set according to the moving speed of a moving body.
  • FIG. 1 is a diagram showing an overall outline of the traffic information providing system 1000.
  • a traffic information providing system 1000 includes a portable terminal device 100A, an in-vehicle terminal device 100B, a traffic information providing server 200, and a terminal device 300 installed on a road.
  • the terminal device 300 installed on the road is a road infrastructure device capable of exchanging information with a vehicle-side device through two-way communication.
  • FIG. 1B is a diagram for explaining an example of the operation of the traffic information providing system 1000.
  • the terminal device 100A carried by a pedestrian (school child) and the terminal device 100B mounted on the vehicle receive a signal from a GPS satellite and detect the current position.
  • the traffic information providing server 200 acquires position information detected from the terminal devices 100A and 100B that can exchange information with each other, and generates traffic information.
  • the traffic information providing server 200 stores the generated traffic information and distributes it to the terminal devices 100A and 100B. Specifically, in order to inform the pedestrian of the presence of a vehicle approaching the intersection, a terminal that the pedestrian carries a command to output text or voice with the content “A car is coming. Please be careful.” It can be distributed to the device 100A as traffic information.
  • each communication device (20, 220, 320) of each device can exchange information with each other via a communication network 400.
  • the traffic information providing system or each device constituting the system is connected to other external devices and constitutes a part of so-called intelligent road transport system: ITS (registered trademark) (Intelligent Transport Systems) and other advanced information communication networks. can do.
  • ITS registered trademark
  • VICS registered trademark
  • ETC Electronic Toll Collection System
  • the communication device 20 (320) of the terminal device 100 (300) of the present embodiment is a wireless communication device that transmits and receives the traffic information providing server 200 information by electrical communication, electromagnetic wave communication, and acoustic wave communication.
  • the communication device 20 (320) includes a wireless communication network for mobile phones such as 3G, LTE (3.9G), and 4G, and a wireless LAN such as WiMAX (registered trademark) and WiFi (registered trademark).
  • ITS intelligent road traffic systems
  • beacons and FM broadcasts Communication with the communication device 220 of the traffic information providing server 200 is performed.
  • the communication line network 400 of this embodiment is a communication line network for a mobile phone, a communication line network for a wireless local area network (wireless LAN), and a communication line network for ITS.
  • Base stations including mobile phone base stations, wireless LAN access points, ITS Spots (registered trademark); the same shall apply hereinafter) provided for each communication line network depend on the area to which radio waves and light emitted from each base station There is a communicable area. If the communication device 20 can exchange information (communication) with each base station, it can be determined that the terminal device 100 exists in the communicable area of the base station. That is, in the present embodiment, based on the reception status of the communication device 20, it can be determined whether or not the terminal device 100 including the communication device 20 exists in a predetermined area.
  • FIG. 2 is a block configuration diagram of each device provided in the traffic information providing system 1000.
  • the portable terminal device 100A and the in-vehicle terminal device 100B basically have a common configuration, and include a control device 10, a communication device 20, a position detection device 30, and a sensor 50.
  • the portable terminal device 100A is a computer that includes a control device 10 such as a mobile phone, a smartphone, and a tablet terminal that can be carried by a human and walks with a person, a person who rides a bicycle, and a person who rides a motorcycle.
  • a control device 10 such as a mobile phone, a smartphone, and a tablet terminal that can be carried by a human and walks with a person, a person who rides a bicycle, and a person who rides a motorcycle.
  • the in-vehicle terminal device 100B is a computer that is mounted on a vehicle or a motorcycle and includes a control device 10 such as a navigation device that moves with these.
  • the in-vehicle terminal device 100B is connected to the in-vehicle vehicle controller 60, the navigation device 70, the output device 80, and the travel support device 90 by a CAN (Controller Area Network) or other in-vehicle LAN, and exchanges information with each other.
  • CAN Controller Area Network
  • a mobile phone, a smartphone, or a tablet-type terminal having a navigation function (position detection function, map display function) can be used as the in-vehicle terminal device 100B.
  • the control device 10 includes a ROM 12 that stores a program for executing traffic information provision processing, and a CPU 11 as an operation circuit that functions as the control device 10 by executing the program stored in the ROM 12. And a RAM 13 that functions as an accessible storage device.
  • the control device 10 of this embodiment includes a detection control function, a transmission control function, a state determination function, a road attribute determination function, and an area setting function. The control device 10 executes each function according to the control procedure shown in FIG. 3 described later by the cooperation of the software for realizing these functions and the hardware described above.
  • FIG. 3 is a flowchart showing a control procedure of the traffic information providing system 1000.
  • each structure of the terminal device 100 and the traffic information provision server 200 is demonstrated.
  • the position detection device 30 of the terminal devices 100 ⁇ / b> A and 100 ⁇ / b> B detects the position information of the position where the terminal device 100 exists. .
  • the position detection device 30 of the present embodiment has a first position detection function and a second position detection function that are different in position detection methods.
  • the first position detection function detects current position information (position / region) based on the communication status between the communication device 20 and a base station (station) provided in the communication network 400.
  • the base station has a unique communicable area, and the position (area) of the communicable area can be known in advance.
  • the position detection device 30 acquires the communication status from the communication device 20, and when the communication device 20 is in a state where it can communicate with a base station designated in advance, the terminal device 100 is within the communicable area of the base station. It can be judged that it exists. That is, the communicable area of the base station can be detected as the position (area) where the terminal device 100 exists.
  • the accuracy of the position (region) information of the terminal device 100 determined by the first position detection function depends on the size of the communicable area. For this reason, when it is desired to increase the accuracy of the current position of the terminal device 100 (when it is desired to narrow the area indicated as the current position), the current position of the terminal device 100 (based on a combination of communication statuses with a plurality of base stations) Area).
  • the second position detection function detects current position information based on reception information of radio waves transmitted from a plurality of positioning satellites.
  • the second position detection function of the position detection device 30 includes a device that receives radio waves from a positioning satellite such as GPS (Global Positioning System), and calculates latitude, longitude, and altitude based on the radio waves received from the positioning satellite. .
  • GPS Global Positioning System
  • the positioning method using GPS is not limited, and a method known at the time of filing can be appropriately applied.
  • the second position detection function of this embodiment can acquire position information by a D-GPS (Differential GPS) system that corrects measurement errors due to GPS based on radio waves emitted by the base station.
  • a method for obtaining position information based on a signal acquired from GPS is not particularly limited, and a method known at the time of filing can be appropriately used.
  • the first position detection function and the second position detection function in the position detection device 30 can be switched by the control device 10 to be described later.
  • the first position detection function that is, based on the communication status. Detect current position. That is, in step 101, the position detection function based on signals received from satellites such as GPS is not activated.
  • the position detection device 30 activates one of a first position detection function for detecting so-called simple position information and a highly accurate second position detection function based on GPS information to acquire position information.
  • both functions may be activated, and the position information may be acquired by a D-GPS (Differential GPS) system that corrects measurement errors due to GPS based on radio waves emitted by the base station.
  • D-GPS Different GPS
  • a technique for obtaining one piece of position information based on information obtained by both functions is not particularly limited, and a technique known at the time of filing can be appropriately used.
  • the position detection device 30 of the present embodiment has an error area detection function.
  • the error area detection function calculates a range (region) in which the terminal device 100 exists with a predetermined probability or more as an error area based on the detection accuracy of the position information of the first position detection function and / or the second position detection function. .
  • the predetermined probability is arbitrarily set.
  • the position detection device 30 of the present embodiment shows an area in which the possibility that the terminal device 100 exists is determined to be equal to or greater than a predetermined value as a circular error area superimposed on the map information.
  • the current position determined based on the availability of communication by the first position detection function is determined by a single communicable area or a combination of plural communicable areas, the current position is indicated by a pinpoint (one point) It is difficult. Even when the current position is determined using the second position detection function, the signal received from the satellite generates multipath due to the presence of mountains and buildings, the position of the satellite, and the arrangement between the satellites (positional relationship). Therefore, it is generally said that the GPS ranging accuracy is several hundred meters to several kilometers or more, and it is difficult to pinpoint the current position with a single point.
  • the error area detection function of the present embodiment searches for a base station with which the communication device 20 can communicate, and calculates a communicable area based on the output of the communicable base station. This is a function of calculating an area in which communicable areas of communicable base stations overlap and the terminal device 100 is predicted to exist with a predetermined probability or more as an error area including an error.
  • the error area detection function of this embodiment is based on the reception status of signals transmitted from positioning satellites, the number of visible satellites, the arrangement of satellites (variation degree, distance between each satellite), the presence of buildings and mountains, etc.
  • this error area may be used as the current position in consideration of the existence probability.
  • control device 10 sets the frequency at which the position information of the position detection device 30 is detected higher as the distance from the specific intersection is shorter. Specifically, the control device 10 applies the detection timing defined in advance according to the distance between the position information obtained in the previous detection process and the specific intersection, and causes the position detection device 30 to execute the next detection process. .
  • the position detection is performed with high frequency as the vehicle enters the position detection area and approaches the specific intersection, detailed position information can be obtained in the vicinity of the specific intersection important as traffic information. Rough position information can be acquired at a location away from a specific intersection that is not very important as traffic information.
  • movement which acquires a positional information in the place away from the specific intersection which is not so important as traffic information can be suppressed, the power consumption of the terminal device 100 can be suppressed.
  • the control device 10 of the terminal device 100 refers to the area information.
  • the area information of the present embodiment includes a position detection area and an information transmission area (the same applies hereinafter).
  • the area information is associated with the map information M and stored in the database 40 of the terminal device 100, the database 340 of the roadside device 300, the database 240 of the traffic information providing server 200, or each base station of the communication network 400. be able to.
  • the terminal device 100, the roadside device 300, and the traffic information providing server 200 may access their own databases 40, 340, and 240 at a necessary timing to refer to the area information, and other information may be obtained via the communication network 400. You may acquire from the terminal device 100, the roadside apparatus 300, the traffic information provision server 200, and may acquire from each base station of the communication network 400 at the time of communication establishment.
  • the specific intersection is an intersection where it is desired to observe the movement of the moving body with respect to the intersection and to generate and provide information on traffic based on the movement of the moving body.
  • Specific intersections that are subject to traffic information include high-traffic roads, roads with poor visibility, roads that require monitoring of traffic conditions, such as roads with high elevation differences and curves, roads with high speed limits, Intersections on roads with many pedestrians, road intersections close to school, etc. can be arbitrarily selected and set.
  • the position information detected within the position detection area is sent to the traffic information providing server 200 and used for generating traffic information.
  • the position detection area includes a communication area of a base station provided in a communication network for a mobile phone including a specific intersection, a communication area of a base station provided in a communication network of a wireless local area network including a specific intersection, and a specific It can be set based on any one or more of the communication areas of the base stations provided in the communication line network of the intelligent transportation system including the intersection. Thereby, it can be judged using the function which confirms the communication establishment by the communication apparatus 20 with which the terminal device 100 is provided whether the terminal device 100 is located in a position detection area. As a result, it is possible to determine the timing for starting the position detection device 30 without causing a new processing load.
  • the information transmission area is an area within the position detection area and set based on the position of the specific intersection.
  • the information transmission area may be a circular or elliptical area centered on the specific intersection. It is good also as a strip
  • the position information of the set information transmission area and the position information of the specific intersection may be stored in the database 40 in association with the map information M or separately from the map information M, or at a suitable timing at the traffic information providing server 200. It may be acquired from the roadside device 300 or the base station.
  • FIG. 4 is a diagram showing an example of area information associated with the map information M.
  • the area information shown in FIG. 4 includes preselected specific intersections S1 to S4, position detection areas Ta and Tb set to include these specific intersections S1 to S4, and information transmission areas set based on the specific intersection S1.
  • An example is shown in which Pa1 and information transmission area Pa2 set based on a plurality of specific intersections S1 to S4 are set.
  • the position of the specific intersection S, the position (range) of the position detection area T, and the position (range) of the information transmission area P can be defined by coordinate values such as latitude and longitude.
  • FIG. 5 is a diagram for explaining the positional relationship between the position detection area T, the information transmission area P, and the specific intersection S.
  • the information transmission area P is defined on the basis of the specific intersection S
  • the position detection area T is defined as an area including the information transmission area P.
  • the information transmission area P is defined to include the specific intersection S.
  • Step 103 of FIG. 3 the detection control function of the control device 10 determines whether or not the terminal device 100 exists in the position detection area. Specifically, the control device 10 according to the present embodiment determines whether or not the terminal device 100 exists within the position detection area set to include the specific intersection S selected in advance based on the communication status of the communication device 20. Determine whether. In step 103, the control device 10 returns to step 101 when the terminal device 100 exists outside the position detection area, and proceeds to step 104 when the terminal device 100 exists within the position detection area.
  • step 104 the detection control function of the control device 10 activates the GPS module by the second position detection function of the position detection device 30, and acquires position information based on the signal received from the positioning satellite.
  • step 105 the transmission control function of the control device 10 determines whether or not the terminal device 100 exists within the information transmission area P based on whether or not the position information acquired in step 104 is included in the information transmission area P. Judging.
  • the information transmission area P is an area included in the position detection area T, and is a preset area such as a circular area having a predetermined diameter centered on a specific intersection S selected in advance.
  • control device 10 of this embodiment determines in step 105 that the terminal device 100 does not exist within the information transmission area, the control device 10 returns to step 104 and repeats position detection. On the other hand, if the control device 10 determines in step 105 that the terminal device 100 exists within the information transmission area, the control device 10 proceeds to step 106.
  • step 106 the control device 10 causes the location information detected in step 104 to be transmitted to the traffic information providing server 200 via the communication device 20.
  • the control device 10 can send the speed information, the traveling direction, the acceleration information, the right / left turn information, and the like detected on the terminal device 100 side to the traffic information providing server 200 together with the position information.
  • the control device 10 of the present embodiment is based on the determined state of the terminal device 100 from the viewpoint that the position information useful as traffic information is different.
  • An area setting function for setting the information transmission area P is provided.
  • the control device 10 according to the present embodiment performs the area setting process in step 107 in parallel with the position information transmission process described above.
  • control device 10 can set area information including a position detection area and an information transmission area according to the state of the terminal device 100 (moving body), for example, the moving speed.
  • the control device 10 calculates the moving speed of the terminal device 100 (moving body) based on the change in the position information detected by the position detecting device 30.
  • the control apparatus 10 can also acquire the moving speed of the terminal device 100 (moving body) from the vehicle speed sensor 50 of a motorcycle / automobile.
  • the control device 10 acquires vibration information from the acceleration sensor 50 included in the terminal device 100, the motorcycle, or the automobile.
  • various sensors such as a vehicle speed sensor, a vibration sensor, and an acceleration sensor included in the terminal device 100 are collectively referred to as sensors, and are described with reference numeral 50.
  • the control device 10 acquires the movement position using the second position detection function (GPS) of the position detection device 30.
  • GPS second position detection function
  • FIG. 6A is a flowchart showing a processing procedure for setting area information according to the moving speed of the moving object.
  • the control device 10 acquires the temporal change in the position information detected by the position detection device 30 and the moving speed of the terminal device 100 from the vehicle speed sensor 50.
  • the control device 10 belongs to the preset speed region A (low speed region), speed region B (medium speed region), or speed region C (high speed region). Judging.
  • the speed regions A to C can be appropriately defined according to the traffic situation at a specific intersection.
  • step 123 when the moving speed belongs to the speed area A (low speed area), the control device 10 proceeds to step 124, and sets the first position detection area T1 and the first information transmission area P1.
  • step 125 when the moving speed belongs to the speed region B (medium speed region), the control device 10 proceeds to step 126, and sets the second position detection area T2 and the second information transmission area P2.
  • step 127 when the moving speed belongs to the speed region C (high speed region), the control device 10 proceeds to step 128 and sets the third position detection area T3 and the third information transmission area P3.
  • the relationship between the widths of the first to third position detection areas is T1 ⁇ T2 ⁇ T3
  • the relationship between the widths of the first to third information transmission areas is P1 ⁇ P2 ⁇ P3. That is, the control device 10 sets the position detection area T and the information transmission area P that are smaller (approaching the specific intersection S) as the moving speed of the terminal device 100 (moving body) is lower.
  • FIG. 6B is a diagram illustrating an example of a positional relationship between the position detection areas T1, T2, and T3 and the information transmission areas P1, P2, and P3.
  • the traffic information providing server 200 For a fast moving body, it is preferable to start position detection at a time when it is relatively far from the specific intersection S and send the position information to the traffic information providing server 200. This is because if the moving distance per time is large, the location information may not be uploaded to the traffic information providing server 200 even though the vehicle has passed near the specific intersection S. On the other hand, it is preferable to start position detection at a time when the moving body has a low speed near the specific intersection S and send the position information to the traffic information providing server 200. This is because when the moving distance per time is small, there is no change in the position information detected in a predetermined cycle, and there may be a case where almost duplicate position information is uploaded to the traffic information providing server 200.
  • the control device 10 sets the position detection area T and the information transmission area P so that the area increases as the moving speed of the terminal device 100, that is, the moving speed of the moving body increases. Even if the terminal device is not always operated, the position information of the terminal device existing in an appropriate area corresponding to the state of the terminal device can be collected. Thereby, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that the power consumption of the terminal device 100 can be reduced.
  • the control device 10 is configured such that the attribute of the moving object (for example, a pedestrian, a bicycle, a motorcycle, or other) determined based on any one or more of the speed, vibration, and position of the terminal device 100. If the object moving means) are different, the position detection area T and the information transmission area P are determined based on the determined attribute of the moving body that moves the terminal device 100 from the viewpoint that the position information useful as traffic information is different. Have an area setting function. The control device 10 according to the present embodiment performs the area setting process of step 107 in parallel with the process of sending the position information to the traffic information providing server 200.
  • the attribute of the moving object for example, a pedestrian, a bicycle, a motorcycle, or other
  • the control device 10 determines the attributes of the moving object based on the state information such as the moving speed, vibration, and moving position of the terminal device 100 based on the area information including the position detection area and the information transmission area.
  • a detection area T and an information transmission area P are set.
  • the control device 10 of this embodiment includes a state determination function for determining the state of the terminal device 100.
  • the state of the terminal device 100 includes a moving speed, vibration, and a moving position (road center, lane center, road edge, road shoulder, etc.).
  • the state of the terminal device 100 varies depending on the moving body (carrier) carrying the terminal device 100. For example, a terminal device 100 carried by a person walking, a terminal device 100 carried by a person riding a bicycle, a terminal device 100 carried by a person riding a motorcycle, or a terminal device 100 mounted on a motorcycle, carried by a person riding in a car.
  • the terminal device 100 or the terminal device 100 mounted on the automobile has a different moving speed, vibration state, and moving position.
  • the moving speed is relatively low, the vibration (acceleration / deceleration) is small, and the moving position is a sidewalk area.
  • the moving speed is medium, the vibration (acceleration / deceleration) is medium, and the moving position is the shoulder of the road (the end of the road).
  • the moving speed is relatively fast, the vibration (acceleration / deceleration) is large, and the moving position is the shoulder of the road (the end of the road).
  • the moving speed is relatively fast, the vibration (acceleration / deceleration) is large, and the moving position is at the center of the road (lane).
  • the control device 10 determines whether the moving body that moves the terminal device 100 from any one of the speed, vibration, and position of the terminal device 100 is a pedestrian, bicycle, motorcycle, or automobile. Or the attribute of the moving body which is objects other than a pedestrian, a bicycle, a motorcycle, and a motor vehicle is judged. Specifically, when the moving speed is relatively low, the vibration (acceleration / deceleration) is small, and the moving position is a sidewalk area, it is determined that the moving body is a human and the moving speed is relatively low. If the vibration (acceleration / deceleration) is moderate and the moving position is the shoulder of the road (the end of the road), the moving body is judged to be a bicycle, and the moving speed is relatively fast.
  • the moving body is judged to be a motorcycle, and the moving speed is relatively fast, and vibration (acceleration / deceleration) If the movement position is at the center of the road (lane), it is determined that the moving body is an automobile.
  • the criteria for determining the moving object are set experimentally in consideration of the accuracy of the sensor 50 and the like. Of course, the person using the terminal device 100 may input the attributes of the moving object (walking / bicycle / motorcycle / automobile).
  • the control device 10 sets the first position detection area T1 that is the first area and the second information transmission area P1 that is the second area.
  • the third position detection area T2 having a third area larger than the first area and the fourth information transmission area P2 having a fourth area larger than the second area.
  • the fifth position detection area T3 having a fifth area larger than the third area and the sixth area having a sixth area larger than the fourth area are set.
  • Information transmission area P3 is set.
  • FIG. 7A is a flowchart showing a processing procedure for setting area information according to the attribute of the moving object.
  • the control device 10 acquires the position information detected by the position detection device 30, the output from the acceleration sensor 50, and the information output from the vehicle speed sensor 50.
  • the control device 10 determines whether the moving object belongs to a pedestrian, a bicycle, a motorcycle, or an automobile based on the acquired information of the various sensors 50.
  • the control device 10 proceeds to step 134 and sets the first position detection area T1 and the first information transmission area P1.
  • step 135 when the control apparatus 10 determines that the moving body is a bicycle, the control apparatus 10 proceeds to step 136, and sets the second position detection area T2 and the second information transmission area P2.
  • step 137 when the control device 10 determines that the moving body is a motorcycle or a car, the control device 10 proceeds to step 138 and sets the third position detection area T3 and the third information transmission area P3.
  • the relationship between the widths of the first to third position detection areas is T1 ⁇ T2 ⁇ T3
  • the relationship between the widths of the first to third information transmission areas is P1 ⁇ P2 ⁇ P3.
  • the moving body when the moving body is a pedestrian, the smallest position detection area T and the information transmission area P (approaching the specific intersection S) are set, and when the moving body is a bicycle, the medium position detection area is set. T and the information transmission area P are set, and when the moving body is a motorcycle or an automobile, the widest position detection area T and the information transmission area P are set.
  • FIG. 7B shows a position detection area T1 and an information transmission area P1 when the mobile body is a pedestrian, a position detection area T2 and an information transmission area P2 when the mobile body is a bicycle, and a case where the mobile body is a motorcycle / automobile. It is a figure which shows the example of the positional relationship of this position detection area T3 and the information transmission area P3.
  • control device 10 of the present embodiment when road attributes such as the speed limit, road shape, and road width of the road on which the terminal device 100 moves are different, from the viewpoint that useful location information is different as traffic information. It has an area setting function for setting the position detection area T and the information transmission area P based on the attribute of the road on which the terminal device 100 moves. The control device 10 can set the area information including the position detection area and the information transmission area according to the road attribute of the road on which the moving body including the terminal device 100 moves.
  • the control device 10 of the present embodiment has a road attribute determination function.
  • the control device 10 determines a road attribute including the position information of the terminal device 100 detected by the position detection device 30 with reference to the map information M including the road attribute information.
  • the road attribute information of the present embodiment includes the speed limit of each road, the road width, the width of a sidewalk provided along the road, the road shape, and the height. That is, the map information M includes speed limit information, road width information, sidewalk width information, and road shape information associated with position information (coordinate information) including at least the height of each road.
  • the control device 10 reads the road attribute information of the road including the detected position information (latitude, longitude, height) of the terminal device 100.
  • the control device 10 of the present embodiment also acquires height information as position information of the terminal device 100, and based on the acquired height information, position information (including height information) of the terminal device 100 and road attributes. Since the road attribute is determined by referring to the map information associated with “,” it is possible to identify a road having a common latitude and longitude but different height, such as a three-dimensional intersection road, as another road. Thereby, the attribute of each road can be judged correctly.
  • FIG. 8 is a flowchart showing a processing procedure for setting area information according to the attribute of the road on which the terminal device 100 moves.
  • the control device 10 refers to map information M associated with road attribute information.
  • the control device acquires the road attribute of the road on which the moving body that moves the terminal device 100 travels.
  • the road attribute includes at least one of a road speed limit, a road shape, and a road width.
  • the terminal device 100 refers to the area setting rule according to the road attribute.
  • the terminal device 100 sets the position detection area T and the information transmission area P based on the road attribute of the road on which the terminal device 100 moves according to the area setting rule.
  • setting a wider position detection area T and information transmission area P as the road speed limit is faster is defined as an area setting rule according to the road attribute.
  • the control device 10 sets the position detection area T and the information transmission area P that are wider (larger in area) as the speed limit on the road on which the terminal device 100 moves is faster (higher). Since the speed of the moving body traveling on the road is predicted to increase as the speed limit on the road is faster (higher), the position detection area T and the information transmission area P are set wider.
  • the road W along the arrow A direction and the road L along the arrow B are substantially orthogonal and constitute a specific intersection S.
  • the speed limit of the road W along the direction of the arrow A is 50 km / h
  • the speed limit of the road L along the direction of the arrow B is 30 km / h.
  • the area information 2 that is short in the extending direction (B direction) of the road L having a low speed limit and short in the width direction of the road is set, and in the extending direction (A direction) of the road W having a high speed limit.
  • Area information 1 that is long and long in the width direction of the road is set.
  • the length along the A direction in which the road W with a high speed limit extends is along the B direction in which the road L with a low speed limit extends.
  • Area information 1 having a shape longer than the length is set.
  • the upper conceptual area information including the position detection area T and the information transmission area P is illustrated, but each area can be set based on the same policy. At this time, the information transmission area P may be set to be included in the position detection area T.
  • control device 10 sets a position detection area T and an information transmission area P that have a larger (wide) area as the road width of the road on which the terminal device 100 moves is larger (wider). As the road width is larger (wider), the speed of the moving body traveling on the road tends to increase. Therefore, the position detection area T and the information transmission area P are set wider for the reasons described above.
  • the control device 10 has a position detection area with a larger (wide) area as the width of the sidewalk provided along the sidewalk along which the terminal device 100 moves or the sidewalk along which the terminal device 100 moves is larger (wider).
  • T and information transmission area P are set.
  • the width of the sidewalk is larger (wider)
  • the amount of traffic on the sidewalk or the road along the sidewalk tends to increase, and the number of moving objects that run tends to increase.
  • the position detection area T and information A wide transmission area P is set. Thereby, the same effect as the above-mentioned invention can be produced.
  • the road W along the arrow A direction and the road L along the arrow B direction are substantially orthogonal to each other and constitute a specific intersection S.
  • the road width of the road W along the arrow A direction is narrower than the road width of the road L along the arrow B direction.
  • the area information 2 that is short in the extending direction (B direction) for the road L with a narrow road width and short in the width direction of the road is set, and the extending direction (A direction for the road W with a wide road width is set. )
  • area information 1 that is long in the width direction of the road is set.
  • the area along the A direction in which the wide road W extends extends longer than the length along the B direction in which the narrow road L extends.
  • Information 1 (including position detection area T and information transmission area P) is set. The same applies to the sidewalk.
  • the upper conceptual area information including the position detection area T and the information transmission area P is illustrated, but each area can be set based on the same policy. At this time, the information transmission area P may be set to be included in the position detection area T.
  • control device 10 sets a position detection area T and an information transmission area P having a shape along the shape of the road on which the terminal device 100 moves.
  • a position detection area T and an information transmission area P having a shape along the shape of the road on which the terminal device 100 moves.
  • circular, elliptical, and cross-shaped area information (including a position detection area T and an information transmission area P) is set so as to include a road extending from the specific intersection S.
  • a T-shaped intersection where two roads intersect includes a substantially triangular area information (including a position detection area T and an information transmission area P) so as to include only a road extending from the specific intersection S. ).
  • the area information (including the position detection area T and the information transmission area P) is set so that the area where the road L does not exist is not included in the B direction in which the road L extends. Furthermore, when the intersecting road has a curvature, area information (including the position detection area T and the information transmission area P) along the curvature is set. As a result, the position detection area T and the information transmission area P can be set so as not to include a portion where no road exists, so position detection and position information transmission are performed in an area where position information as traffic information is unnecessary. Therefore, the power consumption of the terminal device 100 can be reduced.
  • the traffic information providing system 1000 sets the position detection area T and the information transmission area P according to the attribute of the road on which the terminal device 100 moves, so that the position detection device 30 is not always activated.
  • the method of setting the position detection area T and the information transmission area P according to the moving speed of the terminal device 100, the attribute of the moving object, or the road attribute described above may be used independently. The above methods may be combined.
  • the control device 10 of the present embodiment is based on the position of the terminal device 100 with respect to the specific intersection S from the viewpoint that the acquisition frequency of position information useful as traffic information varies depending on the position of the terminal device 100 with respect to the specific intersection S.
  • the cycle (frequency) of transmitting the position information is determined.
  • the control device 10 does not move on the road, but calculates the presence direction of the terminal device 100 with respect to the specific intersection S from the viewpoint of suppressing the transmission of the position information of the terminal device 100 existing in a store along the road. If the angle ⁇ formed by the direction in which the terminal device 100 is present and the direction in which the road constituting the specific intersection S extends is greater than or equal to a predetermined value, the cycle for transmitting the position information to the traffic information providing server is lengthened. A process of canceling transmission is executed. Thereby, the frequency with which the positional information of the terminal device 100 existing in the store along the road, at home, and in the parking lot, which is not related to the traffic at the specific intersection S, is transmitted to the traffic information providing server 200 can be reduced. As a result, while useful position information is selectively collected, transmission of unnecessary position information can be suppressed, so that power consumption of the terminal device 100 can be reduced.
  • control device 10 may require attention because a mobile object existing near the specific intersection S where the road intersects is closer to another mobile object.
  • a moving body that is located far from the specific intersection S has a relatively large distance from the other moving bodies, and it is not necessary to pay attention to the other moving bodies as much as when traveling near the specific intersection. is there.
  • the longer the distance from the specific intersection to the location where the terminal device 100 is the longer the period for transmitting the location information to the traffic information providing server 200. That is, the shorter the distance from the position information detected from the position with the specific intersection S, the shorter the period for transmitting the position information to the traffic information providing server 200.
  • the control device 10 has a low frequency in the position information of each moving body (terminal device 100). Is transmitted to the traffic information providing server 200.
  • the control device 10 frequently acquires the position information of each moving object (terminal device 100). It is transmitted to the traffic information providing server 200.
  • the control device 10 approaches the specific intersection S from the viewpoint that the faster the moving speed of the terminal device 100 approaching the specific intersection S where the road intersects, the greater the change in the distance between the moving bodies and the possibility of approaching rapidly.
  • the control device 10 frequently transmits the position information of each moving body (terminal device 100) to the traffic.
  • the information is sent to the information providing server 200.
  • the control device 10 determines that when the moving speed of the terminal device 100 is less than a predetermined value or zero, Increase the period for sending location information to the server. From the same viewpoint, when the time during which the moving speed of the terminal device 100 is less than or equal to a predetermined value is equal to or longer than the predetermined time, it can be determined that the terminal device 100 is in a stopped state. When the terminal device 100 is stopped, the traffic in the vicinity of the specific intersection S is not affected. Therefore, the process of transmitting the position information to the traffic information providing server 200 is stopped.
  • the terminal device 100 when the terminal device 100 is separated from the specific intersection S, it can be determined that the mobile body is not involved in the traffic of the specific intersection S, so that the process of transmitting location information to the traffic information providing server 200 To cancel.
  • the position information of the moving body that is not involved in the traffic at the specific intersection S such as a moving object that has been stopped for a predetermined time or more, or a moving object that is moving away from the specific intersection S, is transmitted to the traffic information providing server 200. Can be suppressed.
  • the terminal device 100 while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
  • step 108 the communication frequency setting process in step 108 will be described.
  • the control device 10 of the present embodiment performs a communication frequency setting process (step 108) in parallel with the position information transmission process described above.
  • a specific control procedure of the communication frequency changing process will be described based on the flowcharts of FIGS. 11A and 11B.
  • step 151 the control device 10 acquires position information S (Cx, Cy) of the specific intersection S.
  • the location information of the specific intersection S may be acquired from a base station that performs communication, may be read from the database 40 provided therein, or may be acquired from the traffic information providing server 200 via the communication network 400. .
  • step 152 the control device 10 activates the second position detection function of the position detection device 30 and acquires the current position Q (Px, Py) of the terminal device 100 by GPS.
  • step 153 the control device 10 calculates the relative position (distance R ⁇ direction ⁇ ) of the terminal device 100 with respect to the specific intersection S.
  • FIG. 12 shows the distance R and direction ⁇ of the position Q (Px, Py) of the terminal device 100 with respect to the specific intersection S (Cx, Cy).
  • the distance R ⁇ direction ⁇ can be obtained by the equation shown in Equation 1.
  • the control device 10 sets the transmission frequency according to the distance R of the terminal device 100 with respect to the specific intersection S.
  • the control device 10 sets the transmission frequency for transmitting the position information to be lower (the cycle is longer) as the distance R to the specific intersection S is longer. For example, when the distance R to the specific intersection S is 0 ⁇ R ⁇ 10 m, the transmission frequency is 1 time / 1 s, and when the distance R is 10 m ⁇ R ⁇ 20 m, 1 time / 3 s, and the distance R is When 30 m ⁇ R, it is set to 1 / 10s.
  • the control device 10 sets the transmission frequency according to the direction in which the terminal device 100 is present with respect to the specific intersection S.
  • the control device 10 sets the transmission frequency for transmitting the position information to be lower (the cycle is longer) as the direction ⁇ in which the terminal device 100 exists with respect to the specific intersection S is further away from the angle with respect to the road extending direction.
  • the angle ⁇ formed between the direction ⁇ in which the terminal device 100 exists with respect to the specific intersection S and the direction with respect to the road configuring the specific intersection S is equal to or greater than a predetermined value, that is, the road in which the terminal device 100 configures the specific intersection S.
  • the transmission frequency for transmitting the position information is set low (long period), and the angle ⁇ is less than a predetermined value, that is, the terminal device 100 exists on the road constituting the specific intersection S. In this case, the transmission frequency for transmitting the position information is set high (the cycle is shortened). For example, when the angle ⁇ with respect to the road constituting the specific intersection S is 0 ⁇ ⁇ 10 degrees, the transmission frequency is 1 time / 1s, and when the angle ⁇ is 10 degrees ⁇ ⁇ 30 degrees, it is 1 time. / 10 s, and when the angle ⁇ is 30 degrees ⁇ , once / 10 minutes or transmission is stopped.
  • step 155 the control device 10 determines whether or not the terminal device 100 is approaching the specific intersection S (Cx, Cy) based on the history of the position information of the terminal device 100. At this time, it may be added to the determination condition of the approach state that the angle ⁇ described above is less than a predetermined value.
  • the process proceeds to step 156, and the frequency of transmission of the position information set in step 154 is increased.
  • the process proceeds to step 158, and it is further determined whether or not the terminal device 100 is stopped based on the history of position information of the terminal device 100.
  • step 159 the transmission frequency of the position information set in step 154 is lowered.
  • step 158 it is determined in step 158 that the terminal device 100 is stopped, the process proceeds to step 160 and transmission of position information is stopped.
  • Step 157 the process proceeds to Step 157.
  • control of the transmission frequency is continued, and when the terminal device 100 leaves the information transmission area, transmission is performed. End frequency control.
  • FIG. 11B shows another example of the process for controlling the transmission frequency of position information. Steps 161 to 164 in the flowchart shown in FIG. 11B are the same as steps 151 to 154 shown in FIG.
  • step 165 shown in FIG. 11B the control device 10 places the terminal device 100 on the road constituting the specific intersection S (Cx, Cy) based on the position information history of the terminal device 100 and the road position of the map information M. Determine if it exists. At this time, whether or not the terminal device 100 described above is approaching the specific intersection S may be added as a determination condition. If it is determined that the terminal device 100 is moving on the road constituting the specific intersection S, the process proceeds to step 166, and the frequency of transmission of the position information set in step 164 is increased.
  • step 168 determines whether or not the terminal device 100 is stopped based on the history of the position information of the terminal device 100 is determined. to decide. If not stopped, the process proceeds to step 169, where the frequency of transmission of the position information set in step 164 is lowered. On the other hand, if it is determined in step 168 that the terminal device 100 is stopped, the process proceeds to step 170 and transmission of position information is stopped. After the processing of Steps 166, 169, and 170, the process proceeds to Step 167. When the terminal device 100 is within the information transmission area, control of the transmission frequency is continued, and when the terminal device 100 leaves the information transmission area, transmission is performed. End frequency control.
  • the position detection device 30 activates one of the first position detection function for detecting so-called simple position information and the second position detection function with high accuracy based on GPS information. Information can be acquired.
  • the position detection device 30 of the present embodiment has an error area detection function.
  • the error area detection function calculates a range (region) in which the terminal device 100 exists with a predetermined probability or more as an error area based on the detection accuracy of the position information of the first position detection function and / or the second position detection function. .
  • the predetermined probability is arbitrarily set.
  • the position detection device 30 of the present embodiment shows an area in which the possibility that the terminal device 100 exists is determined to be equal to or greater than a predetermined value as a circular error area superimposed on the map information.
  • the current position determined based on the availability of communication by the first position detection function is determined by a single communicable area or a combination of plural communicable areas, the current position is indicated by a pinpoint (one point) It is difficult.
  • the second position detection function is used, the signal received from the satellite is affected by the occurrence of multipath due to the presence of mountains and buildings, the position of the satellite, and the arrangement (positional relationship) between the satellites. Therefore, it is generally said that the ranging accuracy of GPS is several hundred meters to several kilometers or more, and it is difficult to indicate the current position as a pinpoint (one point).
  • the error area detection function of the present embodiment searches for a base station with which the communication device 20 can communicate, and calculates a communicable area based on the output of the communicable base station. This is a function for calculating an area in which communicable areas of communicable base stations overlap and the terminal device 100 is predicted to exist as an error area including an error.
  • the error area detection function of this embodiment is based on the reception status of signals transmitted from positioning satellites, the number of visible satellites, the arrangement of satellites (variation degree, distance between each satellite), the presence of buildings and mountains, etc. This is a function of calculating the degree of error based on environmental factors and calculating an area where the terminal device 100 is predicted to exist according to the degree of error as an error area including an error. In the present embodiment, this error area may be used as the current position in consideration of the existence probability.
  • the detection control function of the control device 10 includes the first position detection function that detects the position based on the communication status with the base station, the first position detection function that detects the position based on a signal from a satellite such as GPS.
  • the position information can be detected by operating either one of the two position detection functions. That is, the control device 10 can switch the operation of the first position detection function and the second position detection function of the position detection device 30.
  • the control device 10 is a case where it is determined that the terminal device exists within the above-described position detection area based on the communication status of the communication device 20, and the position information detected by the position detection device 30 or If at least a part of the error area does not overlap the second position detection area set as an area including the specific intersection S within the position detection area, the first position detection function is caused to detect the position information.
  • the control device 10 determines that the terminal device exists within the position detection area described above, at least a part of the error area detected by the position detection device 30 is within a specific intersection within the position detection area.
  • the position information detected by the second position detection function is transmitted to the communication means.
  • the “second position detection area” in this process can be an “information transmission area” defined as an area for transmitting position information to be described later.
  • step 101 an “error area” is obtained as the current position, and a determination process corresponding to step 105 is executed as step 173 between step 103 and step 104.
  • step 101 the control device 10 causes the position detection device 30 to detect an “error area” as the current position.
  • the method for calculating the error area is not particularly limited, and a method for calculating an area whose probability of being located is a predetermined value or more, which is known by a name such as “positional accuracy circle” at the time of filing, can be appropriately used.
  • step 102 the control device 10 refers to the area information.
  • step 107 if the area information has been changed, the newly set area information is acquired. This area information includes the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P.
  • step 103 the control device 10 determines whether or not the error area overlaps with the position detection area T.
  • step 173 determines whether or not the error area overlaps with the information transmission area P. Whether or not the error area overlaps with the information transmission area P may be determined based on one of the following criteria: when a part overlaps, when a part of a predetermined ratio or more overlaps, or when all overlap. it can.
  • step 173 when the error area overlaps with the information transmission area P, the process proceeds to step 104, where the second position detection function is activated and position information is acquired using GPS.
  • Step 101 and subsequent steps are repeated without activating the second position detection function, that is, the satellite signal receiving device such as GPS.
  • step 106 the control device 10 sends the position information acquired by the second position detection function to the traffic information providing server 200 at a predetermined communication frequency. And if the traffic information from the traffic information provision server 200 is received, it will progress to the process after step 109 mentioned later.
  • the accuracy of the position information detected by the first position detection function based on the communication status with the base station is lower than when the second position detection function is used, but the power consumption consumed for the position detection process is Few.
  • the accuracy of the position information detected by the second position detection function based on the signal received from the satellite is higher than when the first position detection function is used, but the power consumption consumed for the position detection process is large. .
  • the terminal device 100 in the present embodiment exists in the position detection area, but when the terminal apparatus 100 does not enter the second position detection area close to the specific intersection S, the terminal device 100 has low power consumption even if the position detection accuracy is low. Since the position is detected by the one position detection function, the power consumption of the terminal device 100 can be suppressed. On the other hand, when the terminal device 100 exists in the position detection area and further enters the second position detection area (or information transmission area) near the specific intersection S, the power consumption is high but the position detection accuracy is high. Since the position is detected by the high second position detection function, the accuracy of the position information detected near the specific intersection S can be selectively increased. Thus, since the detection method of position information is switched according to the required accuracy, the power consumed for detection of position information can be reduced.
  • the terminal device 100 needs to send the position information to the traffic information providing server 200. It is preferable to obtain According to this process, in the scene where it is determined whether or not to detect the position, the first position detection function with relatively low accuracy but low power consumption is activated and the position information is sent to the traffic information providing server 200. Then, since the second position detection function with relatively high accuracy is activated, it is possible to reduce the power consumed for the position information detection processing while providing highly accurate position information to the traffic information providing server 200. Can do.
  • the traffic information providing server 200 collects from the terminal device 100, the presence / absence and speed of the moving body passing through the specific intersection S, the presence / absence and speed of the moving body turning right and left at the specific intersection S, and movement in the vicinity of the pedestrian crossing. Traffic information is generated based on the presence and speed of the body. And the traffic information regarding another moving body is distributed to each moving body existing in the vicinity of the specific intersection S. Each mobile unit determines whether another mobile unit enters the specific intersection S, whether the mobile unit makes a right or left turn, or whether there is a pedestrian crossing the specific intersection S according to the traffic information provided. You can know in advance. For this reason, a driver such as a vehicle can make a response according to the movement of another moving body in advance, and a pedestrian can move while paying attention to the presence of the moving body.
  • the traffic information providing server 200 includes a control device 210, a communication device 220, and a database 240.
  • the communication device 220 exchanges information via the terminal device 100, the roadside device 300, and the communication line network 400.
  • the communication device 220 according to the present embodiment transmits traffic information (described later) generated by the control device 210 to the terminal device 100 or the roadside device 300 that can be connected via the communication network 400.
  • the database 240 stores map information M including road attribute information, area setting information (position detection area position, information transmission area position), specific intersection S position, pedestrian crossing position, roadway position, sidewalk position, and the like. .
  • Information stored in the database 240 can be sent to the terminal device 100 via the communication device 220.
  • the control device 210 of the traffic information providing server 200 includes a CPU 211, a ROM 212, and a RAM 213.
  • the control device 210 has a generation function for collecting the location information transmitted by the terminal device 100 and generating the traffic information based on the collected location information.
  • the traffic information includes the position of the specific intersection S, the position of the position detection area, the position of the information transmission area, the position information of the other terminal device 100 (moving body), the speed of the other terminal device 100 (moving body), the other Include the speed of the terminal device 100 (moving body), the moving direction of the other terminal device 100 (moving body), and the attributes of the moving body that moves with the other terminal devices 100 (different from pedestrians, bicycles, motorcycles, and vehicles).
  • Various information including the position information of the other terminal device 100 (mobile body) included in the traffic information can be associated with the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area.
  • control device 210 corrects location information that is the basis of traffic information in consideration of errors in location information collected from each terminal device 100, and generates traffic information based on the corrected location information. It has a function to do.
  • control device 210 collects position information detected by the terminal device 100 via the communication device 400 and plots the collected position information on accessible map information. And the road position calculation function for calculating the position of the road based on the position information group plotted on the map information, and the calculated road position and the road position defined on the map information are compared. And a correction amount calculation function for calculating the correction amount of the position information received from the terminal device 100, a generation function, and a transmission control function.
  • signals transmitted from positioning satellites are affected by the refraction of light in the ionosphere, the number of visible satellites, the arrangement of the satellites, and the multipath caused by the reflection of buildings and mountains.
  • the position measurement accuracy may vary from point to point. That is, a common error may occur in a plurality of pieces of position information measured in the vicinity of a specific intersection S. If the terminal device 100 is traveling on a road, the position information indicates a point on the actual road.
  • the traffic information providing server 200 compares the actual road location with a location on the road that is defined in advance on the map information, so that the map information based on the actually measured location information is used. The amount of deviation and the amount of deviation are calculated, and traffic information considering the amount of deviation is generated.
  • the control device 210 of the traffic information providing server 200 compares the actual road location with a location on the road defined in advance on the map information, so that the map information based on the actually measured location information Is calculated, and how much the deviation is.
  • the control device 210 of the traffic information providing server 200 corrects the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount of the position information. Traffic information including the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area is generated. The generated traffic information is sent to the terminal device 100 via the communication device 220.
  • control device 210 causes the terminal device 100 to correct (rewrite) the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount of the position information.
  • Generate traffic information including The traffic information including the generated correction command is sent to the terminal device 100 via the communication device 220.
  • the terminal device 200 detects position information based on the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P, which are corrected to match the position detection situation at the current position. Since transmission of position information can be executed, it is possible to suppress detection and transmission of position information that is not useful for traffic information in the vicinity of the specific intersection S. As a result, the power consumption of the terminal device 100 can be reduced.
  • the control device 210 of the present embodiment extracts a line shape from the position information collected from the terminal device 100 and plotted on the map information, and calculates the position of the road from the extracted line shape. Then, the control device 210 calculates the correction amount of the position information received from the terminal device 100 based on the deviation amount between the calculated position of the intersection of the road and the position of the specific intersection S defined on the map information M. calculate. As a result, even if there is a deviation in the actually measured position information, the specific intersection S that allows for the measurement error can be calculated, and the position detection area T and the information transmission area P can be set. Thereby, even if an error is included in the actually measured position information, the terminal device 100 near the specific intersection S can be accurately selected. As a result, it is possible to suppress the terminal device 100 other than the vicinity of the specific intersection S from detecting and transmitting position information, and to reduce the power consumption of the terminal device 100.
  • the control device 210 of the present embodiment calculates the position of the roadway from the position information of the terminal device 100 having a high moving speed from the viewpoint of determining the correction amount based on the roadway position in the road.
  • the control device 210 of the traffic information providing server 210 acquires the movement speed together with the position information from the terminal apparatus 100, collects the position information and movement speed detected by the terminal apparatus 100, and collects the collected position information and movement.
  • Corresponding speeds are plotted on accessible map information, and included in the road based on positional information groups associated with moving speeds of a predetermined value or more among the positional information plotted on the map information Calculate the position of the roadway.
  • the control device 210 calculates the position of the sidewalk from the position information of the terminal device 100 having a low moving speed from the viewpoint of determining the correction amount based on the position of the roadway in the road when correcting the position information.
  • the control device 210 of the traffic information providing server 210 acquires the movement speed together with the position information from the terminal apparatus 100, collects the position information and movement speed detected by the terminal apparatus 100, and collects the collected position information and movement.
  • Corresponding speeds are plotted on accessible map information, and included in the road based on positional information groups associated with moving speeds less than a predetermined value among the positional information plotted on the map information Calculate the position of the sidewalk.
  • this sidewalk includes a pedestrian crossing provided on the roadway.
  • the correction amount of the position information can be accurately calculated based on the position of the roadway or the position of the sidewalk.
  • the roadway and the sidewalk extend in parallel, but their positions are different, it is better to identify the position information of the terminal device 100 moving on the roadway and the movement information of the terminal device 100 moving on the sidewalk on the roadway.
  • the position of the road can be calculated more accurately than not identifying the position information of the moving terminal apparatus 100 and the movement information of the terminal apparatus 100 moving on the sidewalk.
  • the terminal apparatus 100 it is possible to identify the positional information and movement of a moving body (car / motorcycle) moving on a roadway and the positional information and movement of a moving body (pedestrian) moving on a sidewalk, and provide the terminal apparatus 100 with the identified information. It can. That is, according to this process, the information that “the moving body is moving toward the specific intersection S” is referred to as “the pedestrian is moving (on the sidewalk) toward the specific intersection S” or “the vehicle is (on the road)”. Specifically, “moving toward the specific intersection S”. In this way, by identifying the roadway and the sidewalk in the traffic information, it is possible to specifically convey the attributes of the moving object, the place where attention is paid, and the movement of the moving object to the terminal device 100.
  • the control device 210 of the present embodiment takes into consideration that the road may include an up lane and a down lane, and that the up or down lane may include a plurality of lanes.
  • a plurality of lanes included in the road based on the position information group whose deviation is less than a predetermined value among the position information plotted on the map information, instead of extracting one linear from the position information scattered on the entire road
  • the position of is calculated.
  • the control device 210 compares the calculated lane position with the lane position defined on the map information, and calculates the correction amount of the position information received from the terminal device 100.
  • the positions of a plurality of lanes can be calculated based on the position information group whose deviation (variation) is less than a predetermined value.
  • the position of the specific intersection S can be extracted based on the position information of the terminal device 100, and accurate traffic information can be generated.
  • control device 210 of the present embodiment has a moving body that turns right and left in the specific intersection S, and an error occurs in the position of the road in consideration of the position information of the moving body that turns right and left (does not go straight). For this reason, the position of the road is calculated based on the position information group other than the position information plotted in the specific intersection S among the position information plotted on the map information.
  • the position information plotted in the specific intersection S is the position of the specific intersection S calculated based on the position (latitude / longitude) of the specific intersection S on the preset map information or the actually measured road position. This is position information included in an area at a predetermined distance from (latitude / longitude). This predetermined distance is a distance that defines a range including a pedestrian crossing and a stop line from the center of the intersection.
  • the control device 10 of the present embodiment Since the position of the road is calculated based on the position information excluding the position information included in the area of the predetermined distance from the position (latitude / longitude) of S, the exact position of the road and the exact position of the specific intersection S are obtained. be able to. As a result, accurate traffic information can be generated.
  • the traffic information providing server 200 of the present embodiment receives the position information, speed information, and moving direction (direction) of the moving object (terminal device 100) from the terminal device 100, and plots it on the map information M. Collect information.
  • step 202 the traffic information providing server 200 of the present embodiment generates traffic information based on the collected location information and the like.
  • step 203 the traffic information providing server 200 of the present embodiment, based on the actually collected location information of the terminal device 100, the location of the specific intersection S, the area information (the location of the location detection area T, the information transmission area P). (Including location) and traffic information. This correction method will be described later.
  • the traffic information providing server 200 of this embodiment transmits the corrected traffic information / specific intersection position and area information (including the position of the position detection area T and the position of the information transmission area P) to the terminal device 100. To do.
  • the traffic information providing server 200 of the present embodiment uses the location information collected from the terminal device 100 within a predetermined time in parallel with the processing of step 202 in FIG. Plot on the given coordinates.
  • FIG. 15 is a diagram illustrating an example of map information M in which position information acquired from the terminal device 100 in the information transmission area with the specific intersection S as a reference is plotted D11, D12... D1n, D21, D22. Since most of the terminal devices 100 near the specific intersection S move on the roads constituting the specific intersection S, as shown in FIG. 15, the position information is plotted along the roads as D11, D12... D1n, D21, D22. D2n.
  • the traffic information providing server 200 refers to the road information included in the map information M, refers to the position (coordinates) of the road that constitutes the specific intersection S, and identifies from the plotted position information. The alignment along the road that forms the intersection S is extracted.
  • the control device 210 extracts the linear Lx1 and Ly1 or the linear Lx2 and Ly2 that are orthogonal from the position information group, and the line segment that minimizes the sum of the distances from the plot points (plotted coordinates) of each position information. Are extracted from the position information group.
  • a method for extracting the linear Lx1 and Ly1 or the linear Lx2 and Ly2 from the position information group is not particularly limited, and a known method such as a least square method can be appropriately used.
  • each road constituting the specific intersection S includes two lanes, up and down.
  • two pairs of linear Lx1 and Ly1 and linear Lx2 and Ly2 are extracted as orthogonal linear pairs.
  • the intersection angle (for example, 90 degrees) between the linear Lx1 and Ly1 and the linear Lx2 and Ly2 is known and can be included in the road information.
  • the linear Lx1 and the linear Lx2 along the x-axis direction are parallel, and the interval (for example, 5 m) between the linear Lx1 and the linear Lx2 is known and can be included in the road information.
  • the control device 210 can extract the alignment along the road information from the position information group by referring to the number of lanes, the lane interval, and the intersection angle included in the road information of the roads constituting the specific intersection S. If the road contains multiple lanes, extract each line so that the deviation of the position information group is the smallest for each line corresponding to each lane, or exist between each line corresponding to each lane It is possible to take a method of extracting each line shape so that the number of position information plots is minimized.
  • the position information group includes the position information of the terminal device 100 moving on the roadway and the position information of the terminal device 100 moving on the sidewalk. Since information is dispersed, it may be difficult to extract an accurate line. For this reason, in this embodiment, the positional information group A of the terminal device 100A carried by the pedestrian and the positional information group B of the terminal device 100B mounted on the vehicle are identified, and the positional information groups A and B are separately identified. Extract linearity. Thereby, even when there are variations in the number of pedestrians, vehicles, motorcycles, and bicycles (number of plots), the position of the road and the position of the specific intersection S can be accurately estimated.
  • a method for identifying the position information group A of the terminal device 100A carried by the pedestrian and the terminal device 100B mounted on the vehicle is not particularly limited, but the identification information of the terminal device 100 includes the attribute of the moving object (pedestrian, vehicle, motorcycle, bicycle). ) And sending the identification information to the traffic information providing server 200, the traffic information providing server 200 may identify the moving speed calculated from the history of position information transmitted by the terminal device 100. The traffic information providing server 200 may identify the attributes of the moving object (pedestrian, vehicle, motorcycle, bicycle) based on the above.
  • the linear intersection extracted from the position information group corresponds to the position of the specific intersection S.
  • the traffic information providing server 200 calculates a correction amount from a deviation amount between the position of the linear intersection extracted from the position information group and the position of the specific intersection S set in advance.
  • the position information actually detected by the second position detection function of the position detection device 30 may have an error depending on the location.
  • actual position information is detected by correcting the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P based on the actually measured position information. Perform control suitable for the environment.
  • the position detection area T and the information transmission area P are corrected to positions that match the detection environment of the position information. Therefore, even if an error occurs in position detection, the terminal device 100 is originally set in the area where position detection is desired. It is possible to cause the terminal device 100 to perform transmission processing in an area where position detection is to be performed and position information is to be transmitted. That is, it is possible to prevent the terminal device 100 from performing position detection in an area where position detection is unnecessary, and to cause the terminal device 100 to perform transmission processing in an area where position information transmission is unnecessary. As a result, the power consumption of the terminal device 100 can be reduced.
  • step 215 the traffic information providing server 200 according to the present embodiment issues a correction command for correcting the position of the specific intersection, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount (deviation amount). It is generated and sent to the terminal device 100.
  • the traffic information providing server 200 of the present embodiment corrects the traffic information generated by itself based on the calculated correction amount (deviation amount). As a result, it is possible to provide accurate traffic information by eliminating the influence of position information errors.
  • Step 217 the traffic information providing server 200 according to the present embodiment executes the output process of storing, presenting, sending, and other traffic information.
  • the terminal device 100 uses the corrected traffic information / specific intersection position and area information (including the position of the position detection area T and the position of the information transmission area P) as traffic. Received from the information providing server 200. The terminal device 100 presents the corrected traffic information to the user via the speaker / display, and the location and area information of the specific intersection to be referred to (including the location of the location detection area T and the location of the information transmission area P). Update memory.
  • the traffic information providing system 1000 of the present embodiment it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. Since the position detecting device 30 of the terminal device 100 is activated and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, the position detecting device 30 is not always activated. However, it is possible to collect the position information of the terminal device 100 existing in the vicinity of the specific intersection S. As a result, when providing traffic information on a road in the vicinity of an arbitrary specific intersection S, the power consumption of the mobile terminal device can be reduced.
  • the frequency of detecting the position information of the position detection device 30 is set higher as the distance from the specific intersection is shorter. According to this control, since the position detection is performed with high frequency as the vehicle enters the position detection area and approaches the specific intersection, detailed position information can be obtained in the vicinity of the specific intersection important as traffic information. Rough position information can be acquired at a location away from a specific intersection that is not very important as traffic information. Thereby, since the operation
  • the position detection area is provided in the communication area of the base station provided in the communication network for mobile phones including the specific intersection, and in the communication network of the wireless local area network including the specific intersection. Is set based on at least one of the communication area of the base station provided and the communication area of the base station provided in the communication network of the intelligent transportation system including the specific intersection. It is possible to determine whether the terminal device 100 is located using a function of confirming communication establishment by the communication device 20 included in the terminal device 100. As a result, it is possible to determine the timing for starting the position detection device 30 without causing a new processing load.
  • the traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
  • the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B that is mounted on a vehicle, and a stationary terminal device 300 that is provided on the roadside.
  • the position information of vehicles and pedestrians passing through the specific intersection S can be collected, and the traffic information generated by the vehicles and pedestrians passing through the specific intersection S can be distributed. Traffic information can be provided.
  • the traffic information providing system 1000 of the present embodiment it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. Since the position detection device 30 of the terminal device 100 is activated and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, the position detection device 30 and the communication device 20 are always connected. Even if it is not activated, the position information of the terminal device 100 existing in the vicinity of the specific intersection S can be collected. Moreover, the position information of the terminal device 100 existing in the vicinity of the specific intersection can be sent to the traffic information providing server 200 at an appropriate cycle (frequency) without always operating the communication device 20. As a result, when providing traffic information on a road near an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
  • the existence direction ⁇ of the terminal device 100 with respect to the specific intersection S is calculated, and the existence direction ⁇ and the extension direction of the roads constituting the specific intersection S are calculated.
  • the cycle of transmitting the position information to the traffic information providing server 200 is lengthened (the frequency of transmission is reduced).
  • the frequency at which the location information of the terminal device 100 existing in the store, home, or parking lot is transmitted to the traffic information providing server 200 can be reduced.
  • the control device 10 frequently uses each mobile body (the terminal device 100).
  • Position information is transmitted to the traffic information providing server 200.
  • the position information is transmitted to the traffic information providing server. Since the processing to be transmitted to the mobile station 200 is stopped, the position information of the mobile body that is not involved in the traffic at the specific intersection S, such as a parked mobile body or a person using a store (pedestrian), is transmitted to the traffic information providing server 200. It can be suppressed. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
  • the process of transmitting the location information to the traffic information providing server 200 is stopped. It is possible to suppress transmission of position information of a moving body that is not involved in traffic at the specific intersection S to the traffic information providing server 200 like a moving body that is moving away from the intersection S. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
  • the traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
  • the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B mounted on the vehicle, and an installation-type terminal device 300 provided on the roadside. Since it is possible to collect the position information of vehicles and pedestrians passing through the specific intersection S, and to distribute the traffic information generated to vehicles and pedestrians passing through the specific intersection S without any omission, the specific intersection S It is possible to provide surrounding traffic information.
  • the traffic information providing system 1000 of the present embodiment it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T.
  • the position detection device 30 of the terminal device 100 is activated, and further, the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, and the state of the terminal device 100 is determined and determined. Since the position detection area T and the information transmission area P are set based on the state of the terminal device 100, the terminal device existing in an appropriate area according to the state of the terminal device without always operating the position detection means. Location information can be collected. As a result, when providing traffic information on a road near an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
  • the area of the position detection area T and the information transmission area P is set to increase as the moving speed of the terminal device 100 increases. Even though a fast moving body has passed the vicinity of the specific intersection S, the position information is not uploaded to the traffic information providing server 200, and a moving body having a low speed has no change in the detected position information. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that power consumption of the terminal device 100 can be reduced.
  • the traffic information providing server 200 of this embodiment sets the smallest position detection area T and information transmission area P (approaching the specific intersection S) when the moving body is a pedestrian, and moves
  • a medium position detection area T and information transmission area P are set.
  • the mobile body is a motorcycle or a car
  • the widest position detection area T and information transmission area P are set.
  • position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that the power consumption of the terminal device 100 can be reduced.
  • the traffic information providing server 200 is based on input information received by the terminal device 100 from the user, and the moving body that moves the terminal device 100 is any object such as a pedestrian, bicycle, motorcycle, or automobile.
  • the position detection area T and the information transmission area P according to the exact attributes can be set by determining the attributes of the moving object such as being a pedestrian, bicycle, motorcycle, or an object other than an automobile. Therefore, the above effects can be achieved.
  • the traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
  • the terminal device 100 includes the portable terminal device 100A that is portable, the in-vehicle terminal device 100B mounted on the vehicle, and the installation type terminal device 300 provided on the roadside.
  • the vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
  • the traffic information providing system 1000 of the present embodiment it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T.
  • the position detection device 30 of the terminal device 100 is activated, and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, and the attribute of the road on which the terminal device 100 moves is determined. Since the position detection area T and the information transmission area P are set based on the determined road attribute, the position detection area T and the information transmission area P are set according to the attribute of the road on which the terminal device 100 moves. Even if the position detection device 30 is not always activated, the position information of the terminal device 100 existing in an appropriate area corresponding to the attribute of the road can be collected.
  • the area of the position detection area T and the information transmission area P is set larger as the speed limit of the road on which the terminal device 100 moves is faster. Therefore, since the moving speed of the moving body is high, the position information is not uploaded to the traffic information providing server 200 even though the vicinity of the specific intersection S is passed, and the overlapping position information is generated because the moving speed of the moving body is low. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission suitable for the road conditions caused by the road speed limit can be performed, and position detection and position information transmission are not performed in unnecessary scenes. Consumption can be reduced.
  • the area of the position detection area T and the information transmission area P is set to be larger as the road width of the road on which the terminal device 100 moves is larger. .
  • the road width is larger (wider), the speed of the moving object traveling on the road tends to increase.
  • position detection and position information transmission can be performed in consideration of traffic conditions caused by the road width, position detection and position information transmission are not performed in unnecessary scenes. The power consumption of the terminal device 100 can be reduced.
  • the area of the position detection area T and the information transmission area P is set larger as the width of the sidewalk on which the terminal device 100 moves is larger. .
  • the width of the sidewalk is larger (wider)
  • the traffic volume on the sidewalk or the road along the sidewalk tends to increase, and the number of moving bodies that run tends to increase.
  • position detection and position information transmission can be performed in consideration of traffic conditions caused by the width of the sidewalk, position detection and position information transmission are not performed in unnecessary scenes.
  • the power consumption of the terminal device 100 can be reduced.
  • the position detection area T and the information transmission area P having a shape along the shape of the road on which the terminal device 100 moves are set.
  • the position detection area T and the information transmission area P can be set so as not to include a portion where no road exists, so position detection and position information transmission are performed in an area where position information as traffic information is unnecessary. Therefore, the power consumption of the terminal device 100 can be reduced.
  • the terminal device 100 determines road attributes based on the height information of each road.
  • a road that is common but has a different height can be identified as another road. Thereby, the attribute of each road can be judged correctly.
  • the area of the position detection area T and the information transmission area P is set to increase as the moving speed of the terminal device 100 increases. Even though a fast moving body has passed the vicinity of the specific intersection S, the position information is not uploaded to the traffic information providing server 200, and a moving body having a low speed has no change in the detected position information. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that power consumption of the terminal device 100 can be reduced.
  • the traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
  • the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B mounted on the vehicle, and an installation-type terminal device 300 provided on the roadside.
  • the vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
  • the traffic information providing server 200 is defined on the road information and the map information calculated based on the position information group plotted on the map information.
  • a correction amount of position information is calculated by comparing with the position of the road, and traffic information including the position of the specific intersection corrected based on the correction amount, the position of the position detection area, and the position of the information transmission area is generated. For this reason, even if an error occurs in the actually measured position information due to various measurement conditions, the position of the specific intersection where the measurement error is expected (considering the measurement error), the position of the position detection area, And the position of the information transmission area is calculated, and the traffic information including these is transmitted to the terminal device 100.
  • the terminal device 100 anticipates the measurement error (considering the measurement error), the position of the specific intersection, and the position of the position detection area And, detection of position information and transmission of position information can be executed based on the position of the information transmission area. That is, it is possible to suppress detection and transmission of position information that is not useful for traffic information in the vicinity of the specific intersection S. As a result, the power consumption of the terminal device 100 can be reduced.
  • the traffic information providing system 1000 detects a position based on the position of the position detection area T after correction (expecting a measurement error) when the terminal device 100 acquires traffic information. Since the position information is detected by the device 30 and the position information is transmitted to the communication device 20 based on the corrected position of the information transmission area P (allowing for measurement error), it is useful for traffic information in the vicinity of the specific intersection S. It is possible to suppress detection and transmission of no position information. As a result, the power consumption of the terminal device 100 can be reduced.
  • the terminal device 100 extracts a line shape from position information plotted on the map information M, calculates a road position from the extracted line shape, and is calculated. Since the correction amount is calculated based on the amount of deviation between the position of the intersection of the road and the position of the specific intersection S defined on the map information M, there is a deviation in the actually measured position information. Even if it exists, the specific intersection S which anticipated the measurement error can be calculated, and the position detection area T and the information transmission area P can be set. Thereby, even if an error is included in the actually measured position information, the terminal device 100 near the specific intersection S can be accurately selected. As a result, since the terminal device 100 other than the vicinity of the specific intersection S is not caused to detect and transmit position information unnecessarily, the power consumption of the terminal device 100 can be reduced.
  • the traffic information providing system 1000 includes a position information group associated with a moving speed greater than or equal to a predetermined value among the position information plotted on the map information M by the traffic information providing server 200. Based on this, the position of the roadway included in the road is calculated, so that the correction amount of the position information can be accurately calculated based on the position of the roadway.
  • the attributes of the moving body in the traffic information, the place where attention is paid, and the movement of the moving body can be made concrete. “The vehicle is moving toward the specific intersection S (on the roadway) ”Can be transmitted to the terminal device 100.
  • the traffic information providing system 1000 includes a position information group associated with a moving speed less than a predetermined value among the position information plotted by the traffic information providing server 200 on the map information M. Based on the position of the sidewalk included in the road, the correction amount of the position information can be accurately calculated based on the position of the sidewalk. By identifying the sidewalk on the road, the attributes of the moving body in the traffic information, the place to pay attention to, and the movement of the moving body can be made concrete. “Pedestrians move (to the sidewalk) toward the specific intersection S Specific traffic information such as “medium” can be transmitted to the terminal device 100.
  • the traffic information providing system 1000 includes line segments that are substantially parallel to each other on the basis of the position information plotted on the map information M by the traffic information providing server 200.
  • the position of the line segment extracted so as to minimize the number of position information plotted during the period is calculated as the positions of a plurality of lanes included in the road, and the correction amount is calculated based on the positions of the lanes. Therefore, even when the road includes a plurality of lanes, the position of the specific intersection S can be extracted based on the position information of the terminal device 100, and accurate traffic information can be generated.
  • the traffic information providing system 1000 includes the road information based on the position information group whose deviation is less than a predetermined value among the position information plotted on the map information M by the traffic information providing server 200.
  • the position of the plurality of lanes is calculated, and the correction amount is calculated based on the position of the lane. Therefore, even when the road includes a plurality of lanes, the specific intersection S based on the position information of the terminal device 100 is calculated. Can be extracted and accurate traffic information can be generated.
  • the traffic information providing system 1000 includes a position information group other than the position information plotted in the specific intersection S among the position information plotted on the map information M by the traffic information providing server 200. Since the position of the road is calculated based on the position information of the terminal device 100 that turns right and left at the specific intersection S, the position of the road is calculated based on the position information excluding the position information. The position of S can be determined. As a result, accurate traffic information can be generated. Specially
  • the terminal device 100 includes the portable terminal device 100A that is portable, the in-vehicle terminal device 100B mounted on the vehicle, and the installation-type terminal device 300 provided on the roadside.
  • the vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
  • a terminal including a portable terminal device 100A, an in-vehicle terminal device 100B, and an installed terminal device 300 as one aspect of a traffic information providing system including the terminal device and the server according to the present invention.
  • a traffic information providing system 1000 including the device 100 and the traffic information providing server 200 will be described as an example, but the present invention is not limited to this.
  • a terminal device including a communication unit, a position detection unit, a detection control unit, and a transmission control unit according to the present invention
  • a communication device 20 a position detection device 30, and a detection control are provided.
  • the terminal device 100 including the control device 10 having the function and the transmission control function, the database 40, and the sensor 50 will be described as an example, but the present invention is not limited to this.
  • the terminal device including the detection control unit, the transmission control unit, the state determination unit, the road attribute determination unit, and the area setting unit according to the present invention
  • a detection control function a transmission control function
  • the terminal device 100 including the control device 10 that executes the state determination function, the road attribute determination function, and the area setting function will be described as an example, but the present invention is not limited to this.
  • a first position detection function, a second position detection, and the like are provided as an aspect of a position detection unit that includes a first position detection unit, a second position detection unit, and an error area detection unit included in the terminal device according to the present invention.
  • the position detection device 30 having functions and error area detection functions will be described as an example, but the present invention is not limited to this.
  • a control device 210 having a generation function and a transmission control function, a communication device 220, and a database 240 are provided.
  • the traffic information providing server 200 provided will be described as an example, but the present invention is not limited to this.
  • a position information collection function As one aspect of a server including a position information collection unit, a road position calculation unit, a correction amount calculation unit, a generation unit, and a server-side transmission control unit according to the present invention, a position information collection function,
  • the traffic information providing server 200 including the control device 210 that executes the road position calculation function, the correction amount calculation function, the generation function, and the transmission control function will be described as an example, but the present invention is limited to this. It is not a thing.
  • Traffic information provision system 100 100A, 100B ... Terminal device 10 ... Control device 11 ... CPU 12 ... ROM 13 ... RAM DESCRIPTION OF SYMBOLS 20 ... Communication apparatus 30 ... Position detection apparatus 40 ... Database 50 ... Sensor 200 ... Traffic information provision server 210 ... Control apparatus 211 ... CPU 212 ... ROM 213 ... RAM 220 ... Communication device 230 ... Position detection device 240 ... Database 300 ... Roadside device 320 ... Communication device 240 ... Database 350 ... Sensor

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Abstract

[Problem] To reduce power consumption of a terminal device (100) in a traffic-information delivery system (1000) for sending out position information about the terminal device (100) to a traffic-information delivery server (200). [Solution] A control device (10) for the terminal device (100) causes position information to be detected by a position-detection device (30) when the terminal device (100) is determined to be present within a position-detection area (T), set so as to include a preselected specified intersection point (S), on the basis of the communication status of a communication device (20), and causes the position information to be transmitted to the traffic-information delivery server (200) when the position information is included in the position-detection area (T) and the terminal device (100) is determined to be present within an information-transmission area (P) that is set using the preselected specified intersection point (S) as a reference.

Description

交通情報提供システム及び交通情報提供方法Traffic information providing system and traffic information providing method
 本発明は、道路の交通情報を提供する交通情報提供システム及び交通情報提供方法に関する。
 本出願は、2012年7月11日に出願された日本国特許出願の(1)特願2012―155229、(2)特願2012―155230、(3)特願2012―155231、(4)特願2012―155232、及び(5)特願2012―155233に基づく優先権を主張するものであり、文献の参照による組み込みが認められる指定国については、上記の出願に記載された内容を参照により本出願に組み込み、本出願の記載の一部とする。
The present invention relates to a traffic information providing system and a traffic information providing method for providing road traffic information.
This application is based on Japanese patent applications filed on July 11, 2012: (1) Japanese Patent Application No. 2012-155229, (2) Japanese Patent Application No. 2012-155230, (3) Japanese Patent Application No. 2012-155231, (4) For designated countries that claim priority based on Japanese Patent Application No. 2012-155232 and (5) Japanese Patent Application No. 2012-155233, and which are permitted to be incorporated by reference to the literature, the contents described in the above application are referred to It is incorporated into the application and is part of the description of this application.
 車両に搭載された車載端末器と歩行者が携帯する携帯型端末機とで情報通信を行う技術に関し、歩行者が停止中であると判断された場合には携帯型端末機からの位置情報の送信を行わないことにより、通信の頻度を低減させて携帯型端末機の電力消費量を低減させる技術が知られている(特許文献1参照)。 With regard to technology for information communication between an in-vehicle terminal mounted on a vehicle and a portable terminal carried by a pedestrian, if it is determined that the pedestrian is stopped, the location information from the portable terminal A technique for reducing the power consumption of a portable terminal by reducing the frequency of communication by not performing transmission is known (see Patent Document 1).
特開2011-227763号公報JP 2011-227773 A
 しかしながら、従来の技術によれば、歩行者が停止中であるか否かを判断するために歩行者の位置を常時検出するので、電力消費量が増加するという問題がある。 However, according to the conventional technology, since the position of the pedestrian is always detected in order to determine whether or not the pedestrian is stopped, there is a problem that the power consumption increases.
 本願発明が解決しようとする課題は、自車両以外の移動体の動きを含む交通情報を提供する場合に、移動体側の端末装置の電力消費量を低減させることである。 The problem to be solved by the present invention is to reduce the power consumption of the terminal device on the mobile body side when providing traffic information including the movement of the mobile body other than the host vehicle.
 本発明は、通信状況に基づいて端末装置が特定交差点を含む位置検出エリア以内に存在するか否かを判断し、位置検出エリア以内に存在する端末装置に位置情報を検出させ、さらに端末装置が特定交差点を基準に設定された情報送信エリア以内に存在するか否かを判断し、情報送信エリア以内に存在する端末装置に検出した位置情報をサーバへ送出させることにより、上記課題を解決する。 The present invention determines whether or not a terminal device exists within a position detection area including a specific intersection based on the communication status, causes the terminal device existing within the position detection area to detect position information, The above-mentioned problem is solved by determining whether or not the information exists within the information transmission area set with reference to the specific intersection, and causing the terminal device existing within the information transmission area to transmit the detected position information to the server.
 本発明によれば、位置検出手段を常時起動させていなくても、特定交差点の近傍に存在する端末装置の位置情報を収集することができる。この結果、任意の特定交差点近傍の交通情報を提供する場合において、移動体側の端末装置の電力消費量を低減させることができる。 According to the present invention, it is possible to collect the position information of the terminal device existing in the vicinity of the specific intersection even if the position detecting means is not always activated. As a result, in the case of providing traffic information in the vicinity of an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
交通情報提供システムの全体概要を示す図である。It is a figure showing the whole traffic information offer system outline. 交通情報提供システムの動作例を示す図である。It is a figure which shows the operation example of a traffic information provision system. 各装置のブロック構成図である。It is a block block diagram of each apparatus. 本実施形態の交通情報提供システムの制御手順を説明するためのフローチャートである。It is a flowchart for demonstrating the control procedure of the traffic information provision system of this embodiment. 位置検出エリアT,情報送信エリアP及び特定交差点Sを説明するための図である。It is a figure for demonstrating the position detection area T, the information transmission area P, and the specific intersection S. FIG. 位置検出エリアT,情報送信エリアP及び特定交差点Sの位置関係を説明するための図である。It is a figure for demonstrating the positional relationship of the position detection area T, the information transmission area P, and the specific intersection S. FIG. 移動体の移動速度に応じて情報送信エリアを算出する処理のフローチャートである。It is a flowchart of the process which calculates an information transmission area according to the moving speed of a moving body. 移動体の移動速度に応じて設定される各エリアの概念を示す図である。It is a figure which shows the concept of each area set according to the moving speed of a moving body. 移動体の属性に応じて情報送信エリアを算出する処理のフローチャートである。It is a flowchart of the process which calculates an information transmission area according to the attribute of a moving body. 移動体の属性に応じて設定される各位置検出エリアと情報送信エリアの一例を示す図である。It is a figure which shows an example of each position detection area and information transmission area which are set according to the attribute of a moving body. 道路情報に応じて情報送信エリアを設定する処理のフローチャートである。It is a flowchart of the process which sets an information transmission area according to road information. 道路情報に応じて算出された各情報送信エリアを示す第1の図である。It is a 1st figure which shows each information transmission area calculated according to road information. 道路情報に応じて算出された各情報送信エリアを示す第2の図である。It is a 2nd figure which shows each information transmission area calculated according to road information. 情報送信頻度を算出する第1の処理のフローチャートである。It is a flowchart of the 1st process which calculates information transmission frequency. 情報送信頻度を算出する第2の処理のフローチャートである。It is a flowchart of the 2nd process which calculates information transmission frequency. 特定交差点に対する位置・方向の算出手法を説明するための図である。It is a figure for demonstrating the calculation method of the position and direction with respect to a specific intersection. 現在位置の検出手法を切り替える処理のフローチャートである。It is a flowchart of the process which switches the detection method of a present position. 特定交差点の位置、交通情報の補正処理のフローチャートである。It is a flowchart of the correction process of the position of a specific intersection and traffic information. 特定交差点を基準とする情報送信エリア内の端末装置から取得した位置情報をプロットした地図情報Mの一例を示す図である。It is a figure which shows an example of the map information M which plotted the positional information acquired from the terminal device in the information transmission area on the basis of a specific intersection.
 本実施形態の交通情報提供システムを図面に基づいて説明する。 The traffic information providing system of this embodiment will be described with reference to the drawings.
 図1は交通情報提供システム1000の全体概要を示す図である。図1Aに示すように、本実施形態の交通情報提供システム1000は、携帯型の端末装置100Aと、車載型の端末装置100Bと、交通情報提供サーバ200と、道路に設置される端末装置300とを有する。道路に設置される端末装置300は、双方向通信により車両側の装置と情報の授受が可能な路上インフラ装置である。 FIG. 1 is a diagram showing an overall outline of the traffic information providing system 1000. As shown in FIG. 1A, a traffic information providing system 1000 according to this embodiment includes a portable terminal device 100A, an in-vehicle terminal device 100B, a traffic information providing server 200, and a terminal device 300 installed on a road. Have The terminal device 300 installed on the road is a road infrastructure device capable of exchanging information with a vehicle-side device through two-way communication.
 図1Bは、交通情報提供システム1000の動作の一例を説明するための図である。図1Bに示すように、歩行者(学童)が携帯する端末装置100A、車両に搭載された端末装置100Bは、GPS衛星から信号を受信し、現在位置を検出する。交通情報提供サーバ200は、互いに情報授受が可能な端末装置100A,100Bから検出された位置情報を取得し、交通情報を生成する。交通情報提供サーバ200は、生成した交通情報を記憶するとともに、端末装置100A,100Bへ配信する。具体的には、歩行者に交差点に接近する車両の存在を知らせるために、「車が来ます。注意してください。」という内容のテキスト又は音声を出力させる指令を、歩行者が携帯する端末装置100Aに交通情報として配信することができる。同様に、車両の運転者に交差点に接近する歩行者(学童)の存在を知らせるために、「歩行者がいます。注意してください。」又は「子供が横断中です。注意してください」という内容のテキスト又は音声や、「歩行者注意」「出会頭衝突注意」「二輪車注意」を出力させる指令を、車両に搭載された端末装置100Bに交通情報として配信することができる。 FIG. 1B is a diagram for explaining an example of the operation of the traffic information providing system 1000. As shown in FIG. 1B, the terminal device 100A carried by a pedestrian (school child) and the terminal device 100B mounted on the vehicle receive a signal from a GPS satellite and detect the current position. The traffic information providing server 200 acquires position information detected from the terminal devices 100A and 100B that can exchange information with each other, and generates traffic information. The traffic information providing server 200 stores the generated traffic information and distributes it to the terminal devices 100A and 100B. Specifically, in order to inform the pedestrian of the presence of a vehicle approaching the intersection, a terminal that the pedestrian carries a command to output text or voice with the content “A car is coming. Please be careful.” It can be distributed to the device 100A as traffic information. Similarly, to inform the driver of the vehicle that there are pedestrians (school children) approaching the intersection, say "There are pedestrians. Please be careful." Or "Children are crossing. Please be careful." The text or voice of the content, and a command to output “pedestrian caution”, “heading collision warning”, and “motorcycle caution” can be distributed as traffic information to the terminal device 100B mounted on the vehicle.
 図1A及び図1Bに示すように、各装置の各通信装置(20,220,320)は通信回線網400を介して互いに情報の授受が可能である。また、交通情報提供システム又はこれを構成する各装置は、他の外部装置と接続し、いわゆる高度道路交通システム:ITS(登録商標)(Intelligent Transport Systems)その他の高度情報通信ネットワークの一部を構成することができる。このITS(登録商標)は、VICS(登録商標)(Vehicle Information and Communication System)、ETC(登録商標)(Electronic Toll Collection System)を含む。 As shown in FIGS. 1A and 1B, each communication device (20, 220, 320) of each device can exchange information with each other via a communication network 400. In addition, the traffic information providing system or each device constituting the system is connected to other external devices and constitutes a part of so-called intelligent road transport system: ITS (registered trademark) (Intelligent Transport Systems) and other advanced information communication networks. can do. This ITS (registered trademark) includes VICS (registered trademark) (Vehicle Information and Communication System) and ETC (registered trademark) (Electronic Toll Collection System).
 本実施形態の端末装置100(300)の通信装置20(320)は、電気通信、電磁波通信、音波通信により交通情報提供サーバ200情報の授受を行う無線通信装置である。特に限定されないが、通信装置20(320)は、3G,LTE(3.9G),4Gなどの携帯電話用の無線通信網、WiMAX(登録商標),WiFi(登録商標)などの無線LANを含む無線通信網、及びDSRC(登録商標)(Dedicated Short Range Communication)、ビーコン、FM放送などの高度道路交通システム(ITS)用の無線通信網のうち、いずれか一つ以上の無線通信網を介して交通情報提供サーバ200の通信装置220と通信を行う。本実施形態の通信回線網400は、携帯電話用の通信回線網、無線ローカルエリアネットワーク(無線LAN)用の通信回線網、ITS用の通信回線網である。 The communication device 20 (320) of the terminal device 100 (300) of the present embodiment is a wireless communication device that transmits and receives the traffic information providing server 200 information by electrical communication, electromagnetic wave communication, and acoustic wave communication. Although not particularly limited, the communication device 20 (320) includes a wireless communication network for mobile phones such as 3G, LTE (3.9G), and 4G, and a wireless LAN such as WiMAX (registered trademark) and WiFi (registered trademark). Via any one or more of the wireless communication networks and the wireless communication networks for intelligent road traffic systems (ITS) such as DSRC (registered trademark) (Dedicated Short Range Communication), beacons and FM broadcasts Communication with the communication device 220 of the traffic information providing server 200 is performed. The communication line network 400 of this embodiment is a communication line network for a mobile phone, a communication line network for a wireless local area network (wireless LAN), and a communication line network for ITS.
 各通信回線網に設けられた基地局(携帯電話の基地局、無線LANのアクセスポイント、ITSスポット(登録商標)を含む。以下同じ。)には、それぞれが発する電波や光が届くエリアに応じた通信可能エリアがある。通信装置20が各基地局と情報の授受(通信)が可能であれば、端末装置100はその基地局の通信可能エリアに存在すると判断できる。つまり、本実施形態では、通信装置20の受信状況に基づいて、通信装置20を備える端末装置100が所定のエリアに存在するか否かを判断することができる。 Base stations (including mobile phone base stations, wireless LAN access points, ITS Spots (registered trademark); the same shall apply hereinafter) provided for each communication line network depend on the area to which radio waves and light emitted from each base station There is a communicable area. If the communication device 20 can exchange information (communication) with each base station, it can be determined that the terminal device 100 exists in the communicable area of the base station. That is, in the present embodiment, based on the reception status of the communication device 20, it can be determined whether or not the terminal device 100 including the communication device 20 exists in a predetermined area.
 以下、図面に基づいて、交通情報提供システム1000について説明する。図2は、交通情報提供システム1000が備える各装置のブロック構成図である。 Hereinafter, the traffic information providing system 1000 will be described with reference to the drawings. FIG. 2 is a block configuration diagram of each device provided in the traffic information providing system 1000.
 図2に示すように、携帯型の端末装置100A及び車載型の端末装置100Bは、基本的に共通の構成を備え、制御装置10、通信装置20、位置検出装置30、及びセンサ50を備える。 2, the portable terminal device 100A and the in-vehicle terminal device 100B basically have a common configuration, and include a control device 10, a communication device 20, a position detection device 30, and a sensor 50.
 携帯型の端末装置100Aは、人間に携帯され、歩行する人間、自転車に乗る人間、オートバイに乗る人間とともに移動可能な携帯電話、スマートフォン、タブレット型端末などの制御装置10を備えるコンピュータである。 The portable terminal device 100A is a computer that includes a control device 10 such as a mobile phone, a smartphone, and a tablet terminal that can be carried by a human and walks with a person, a person who rides a bicycle, and a person who rides a motorcycle.
 車載型の端末装置100Bは、車両やオートバイに搭載され、これらとともに移動するナビゲーション装置などの制御装置10を備えるコンピュータである。車載型の端末装置100Bは、車載の車両コントローラ60、ナビゲーション装置70、出力装置80、及び走行支援装置90とCAN(Controller Area Network)その他の車載LANによって接続され、相互に情報の授受を行う。なお、車載型の端末装置100Bとしては、ナビゲーション機能(位置検出機能、地図表示機能)を備える携帯電話、スマートフォン、タブレット型端末を用いることができる。 The in-vehicle terminal device 100B is a computer that is mounted on a vehicle or a motorcycle and includes a control device 10 such as a navigation device that moves with these. The in-vehicle terminal device 100B is connected to the in-vehicle vehicle controller 60, the navigation device 70, the output device 80, and the travel support device 90 by a CAN (Controller Area Network) or other in-vehicle LAN, and exchanges information with each other. Note that as the in-vehicle terminal device 100B, a mobile phone, a smartphone, or a tablet-type terminal having a navigation function (position detection function, map display function) can be used.
 本実施形態の制御装置10は、交通情報提供処理を実行するためのプログラムが格納されたROM12と、このROM12に格納されたプログラムを実行することで、制御装置10として機能する動作回路としてのCPU11と、アクセス可能な記憶装置として機能するRAM13と、を備える。本実施形態の制御装置10は、検出制御機能と、送信制御機能と、状態判断機能と、道路属性判断機能と、エリア設定機能と、を備える。制御装置10は、これらの機能を実現するためのソフトウェアと、上述したハードウェアの協働により、後述する図3の制御手順に従って各機能を実行する。 The control device 10 according to the present embodiment includes a ROM 12 that stores a program for executing traffic information provision processing, and a CPU 11 as an operation circuit that functions as the control device 10 by executing the program stored in the ROM 12. And a RAM 13 that functions as an accessible storage device. The control device 10 of this embodiment includes a detection control function, a transmission control function, a state determination function, a road attribute determination function, and an area setting function. The control device 10 executes each function according to the control procedure shown in FIG. 3 described later by the cooperation of the software for realizing these functions and the hardware described above.
 図3は、交通情報提供システム1000の制御手順を示すフローチャートである。以下、図3に示すフローチャートに示す制御手順に従って、端末装置100及び交通情報提供サーバ200の各構成について説明する。 FIG. 3 is a flowchart showing a control procedure of the traffic information providing system 1000. Hereinafter, according to the control procedure shown in the flowchart shown in FIG. 3, each structure of the terminal device 100 and the traffic information provision server 200 is demonstrated.
 図3に示すように、ステップ101では、端末装置100A,100B(以下、総称して「端末装置100」ともいう)の位置検出装置30は、端末装置100が存在する位置の位置情報を検出する。 As shown in FIG. 3, in step 101, the position detection device 30 of the terminal devices 100 </ b> A and 100 </ b> B (hereinafter also collectively referred to as “terminal device 100”) detects the position information of the position where the terminal device 100 exists. .
 本実施形態の位置検出装置30は、位置検出の手法が異なる第1位置検出機能と第2位置検出機能とを有する。第1位置検出機能は、通信装置20と、通信回線網400に設けられた基地局(ステーション)との通信状況に基づいて現在の位置情報(位置・領域)を検出する。先述したように、基地局には固有の通信可能エリアがあり、通信可能エリアの位置(領域)は予め知ることができる。位置検出装置30は、通信装置20から通信状況を取得し、通信装置20が予め指定された基地局と通信可能な状態にある場合には、端末装置100はその基地局の通信可能エリア内に存在すると判断できる。つまり、基地局の通信可能エリアを端末装置100が存在する位置(領域)として検出することができる。 The position detection device 30 of the present embodiment has a first position detection function and a second position detection function that are different in position detection methods. The first position detection function detects current position information (position / region) based on the communication status between the communication device 20 and a base station (station) provided in the communication network 400. As described above, the base station has a unique communicable area, and the position (area) of the communicable area can be known in advance. The position detection device 30 acquires the communication status from the communication device 20, and when the communication device 20 is in a state where it can communicate with a base station designated in advance, the terminal device 100 is within the communicable area of the base station. It can be judged that it exists. That is, the communicable area of the base station can be detected as the position (area) where the terminal device 100 exists.
 第1位置検出機能により判断される端末装置100の位置(領域)情報の精度は、通信可能エリアの広狭に応じる。このため、端末装置100の現在位置の精度を高くしたい場合(現在位置として示される領域を狭くしたい場合)には、複数の基地局との通信状況の組み合わせに基づいて端末装置100の現在位置(領域)を判断する。 The accuracy of the position (region) information of the terminal device 100 determined by the first position detection function depends on the size of the communicable area. For this reason, when it is desired to increase the accuracy of the current position of the terminal device 100 (when it is desired to narrow the area indicated as the current position), the current position of the terminal device 100 (based on a combination of communication statuses with a plurality of base stations) Area).
 第2位置検出機能は、複数の測位衛星から送出される電波の受信情報に基づいて現在の位置情報を検出する。この位置検出装置30の第2位置検出機能は、GPS(Global Positioning System)などの測位衛星から電波を受信する装置を備え、測位衛星からの受信した電波に基づいて緯度、経度、高度を算出する。GPSを用いた測位の手法は限定されず、出願時に知られた手法を適宜に適用することができる。 The second position detection function detects current position information based on reception information of radio waves transmitted from a plurality of positioning satellites. The second position detection function of the position detection device 30 includes a device that receives radio waves from a positioning satellite such as GPS (Global Positioning System), and calculates latitude, longitude, and altitude based on the radio waves received from the positioning satellite. . The positioning method using GPS is not limited, and a method known at the time of filing can be appropriately applied.
 本実施形態の第2位置検出機能は、GPSによる測定誤差を基地局が発する電波に基づいて修正するD-GPS(Differential GPS)方式により位置情報を取得することができる。第2位置検出機能において、GPSから取得した信号に基づいて位置情報を求める手法は特に限定されず、出願時に知られた手法を適宜に利用することができる。なお、位置検出装置30における第1位置検出機能と第2位置検出機能とは、後述する制御装置10により切り替え可能であるが、ステップ101においては、第1位置検出機能、つまり通信状況に基づいて現在位置を検出する。つまり、ステップ101においては、GPSなどの衛星から受信した信号に基づく位置検出機能は起動させない。 The second position detection function of this embodiment can acquire position information by a D-GPS (Differential GPS) system that corrects measurement errors due to GPS based on radio waves emitted by the base station. In the second position detection function, a method for obtaining position information based on a signal acquired from GPS is not particularly limited, and a method known at the time of filing can be appropriately used. The first position detection function and the second position detection function in the position detection device 30 can be switched by the control device 10 to be described later. However, in step 101, the first position detection function, that is, based on the communication status. Detect current position. That is, in step 101, the position detection function based on signals received from satellites such as GPS is not activated.
 本実施形態の位置検出装置30は、いわゆる簡易位置情報を検出する第1位置検出機能とGPS情報に基づく高精度の第2位置検出機能とのいずれか一方を起動させて位置情報を取得してもよいし、両機能を起動して、GPSによる測定誤差を基地局が発する電波に基づいて修正するD-GPS(Differential GPS)方式により位置情報を取得してもよい。両機能により得た情報に基づいて一つの位置情報を求める手法は特に限定されず、出願時に知られた手法を適宜に利用することができる。 The position detection device 30 according to the present embodiment activates one of a first position detection function for detecting so-called simple position information and a highly accurate second position detection function based on GPS information to acquire position information. Alternatively, both functions may be activated, and the position information may be acquired by a D-GPS (Differential GPS) system that corrects measurement errors due to GPS based on radio waves emitted by the base station. A technique for obtaining one piece of position information based on information obtained by both functions is not particularly limited, and a technique known at the time of filing can be appropriately used.
 また、本実施形態の位置検出装置30は、誤差エリア検出機能を備える。誤差エリア検出機能は、第1位置検出機能及び/又は第2位置検出機能の位置情報の検出精度に基づいて、端末装置100が所定の確率以上で存在する範囲(領域)を誤差エリアとして算出する。所定の確率は任意に設定される。本実施形態の位置検出装置30は、端末装置100が存在する可能性が所定値以上であると判断されるエリアを円形の誤差エリアとして地図情報に重畳して示す。 Further, the position detection device 30 of the present embodiment has an error area detection function. The error area detection function calculates a range (region) in which the terminal device 100 exists with a predetermined probability or more as an error area based on the detection accuracy of the position information of the first position detection function and / or the second position detection function. . The predetermined probability is arbitrarily set. The position detection device 30 of the present embodiment shows an area in which the possibility that the terminal device 100 exists is determined to be equal to or greater than a predetermined value as a circular error area superimposed on the map information.
 第1位置検出機能により通信の可否に基づいて判断された現在位置は、単一の通信可能エリア又は複数の通信可能エリアの組み合わせにより判断されるため、現在位置をピンポイント(一点)で示すことは困難である。また、第2位置検出機能を用いて現在位置を判断する場合であっても、衛星から受信する信号は山やビルの存在によるマルチパスの発生、衛星の位置、衛星間の配置(位置関係)などの影響を受けるため、GPSの測距精度は一般に数百メートルから数キロメートル以上と言われており、現在位置をピンポイント(一点)で示すことは困難である。 Since the current position determined based on the availability of communication by the first position detection function is determined by a single communicable area or a combination of plural communicable areas, the current position is indicated by a pinpoint (one point) It is difficult. Even when the current position is determined using the second position detection function, the signal received from the satellite generates multipath due to the presence of mountains and buildings, the position of the satellite, and the arrangement between the satellites (positional relationship). Therefore, it is generally said that the GPS ranging accuracy is several hundred meters to several kilometers or more, and it is difficult to pinpoint the current position with a single point.
 本実施形態の誤差エリア検出機能は、通信装置20が通信可能な基地局を検索し、通信可能な基地局の出力に基づいて通信可能エリアを演算する。そして、通信可能な基地局の通信可能エリアが重複し、端末装置100が所定の確率以上で存在するであろうと予測されるエリアを、誤差を含んだ誤差エリアとして算出する機能である。また、本実施形態の誤差エリア検出機能は、測位衛星が発信する信号の受信状況、可視衛星の数、衛星の配置(ばらつき度、各衛星間の距離)、ビルや山の存在などの地理的環境要因に基づいて誤差の度合を求め、誤差の度合に応じて端末装置100が所定の確率以上で存在するであろうと予測されるエリアを誤差が含まれた誤差エリアとして算出する機能である。本実施形態では、この誤差エリアを存在確率が考慮された現在位置として用いる場合がある。 The error area detection function of the present embodiment searches for a base station with which the communication device 20 can communicate, and calculates a communicable area based on the output of the communicable base station. This is a function of calculating an area in which communicable areas of communicable base stations overlap and the terminal device 100 is predicted to exist with a predetermined probability or more as an error area including an error. In addition, the error area detection function of this embodiment is based on the reception status of signals transmitted from positioning satellites, the number of visible satellites, the arrangement of satellites (variation degree, distance between each satellite), the presence of buildings and mountains, etc. This is a function for calculating the degree of error based on environmental factors, and calculating an area where the terminal device 100 is predicted to exist with a predetermined probability or more as an error area including an error according to the degree of error. In the present embodiment, this error area may be used as the current position in consideration of the existence probability.
 また、制御装置10は、特定交差点との距離が短いほど、位置検出装置30の位置情報を検出させる頻度を高く設定する。具体的に、制御装置10は、前回の検出処理で得た位置情報と特定交差点との距離に応じて予め定義された検出タイミングを適用して、位置検出装置30に次回の検出処理を実行させる。本制御によれば、位置検出エリア内に進入し、特定交差点に接近するにつれて高い頻度で位置検出を実行するので、交通情報として重要な特定交差点近傍において詳細な位置情報を取得することができ、交通情報としてあまり重要でない特定交差点から離れた場所において大まかな位置情報を取得することができる。これにより、交通情報としてあまり重要でない特定交差点から離れた場所において位置情報を取得する動作を抑制することができるので、端末装置100の電力消費量を抑制することができる。 Also, the control device 10 sets the frequency at which the position information of the position detection device 30 is detected higher as the distance from the specific intersection is shorter. Specifically, the control device 10 applies the detection timing defined in advance according to the distance between the position information obtained in the previous detection process and the specific intersection, and causes the position detection device 30 to execute the next detection process. . According to this control, since the position detection is performed with high frequency as the vehicle enters the position detection area and approaches the specific intersection, detailed position information can be obtained in the vicinity of the specific intersection important as traffic information. Rough position information can be acquired at a location away from a specific intersection that is not very important as traffic information. Thereby, since the operation | movement which acquires a positional information in the place away from the specific intersection which is not so important as traffic information can be suppressed, the power consumption of the terminal device 100 can be suppressed.
 続いて、図3に示すフローチャートのステップ102において、端末装置100の制御装置10は、エリア情報を参照する。本実施形態のエリア情報には、位置検出エリアと情報送信エリアとを含む(本明細書において、以下同じ)。特に限定されないが、エリア情報は地図情報Mと対応づけて、端末装置100のデータベース40、路側装置300のデータベース340、交通情報提供サーバ200のデータベース240又は通信回線網400の各基地局に記憶させることができる。端末装置100、路側装置300、交通情報提供サーバ200は、必要なタイミングで自身のデータベース40,340,240にアクセスし、エリア情報を参照してもよいし、通信回線網400を介して他の端末装置100、路側装置300、交通情報提供サーバ200から取得してもよいし、通信確立時に通信回線網400の各基地局から取得してもよい。 Subsequently, in step 102 of the flowchart shown in FIG. 3, the control device 10 of the terminal device 100 refers to the area information. The area information of the present embodiment includes a position detection area and an information transmission area (the same applies hereinafter). Although not particularly limited, the area information is associated with the map information M and stored in the database 40 of the terminal device 100, the database 340 of the roadside device 300, the database 240 of the traffic information providing server 200, or each base station of the communication network 400. be able to. The terminal device 100, the roadside device 300, and the traffic information providing server 200 may access their own databases 40, 340, and 240 at a necessary timing to refer to the area information, and other information may be obtained via the communication network 400. You may acquire from the terminal device 100, the roadside apparatus 300, the traffic information provision server 200, and may acquire from each base station of the communication network 400 at the time of communication establishment.
 特定交差点は、交差点に対する移動体の動きを観察し、移動体の動きに基づく交通に関する情報の生成・提供することが望まれる交差点である。交通情報の対象となる特定交差点としては、交通量の多い道路、見通しの悪い道路、高低差やカーブが多い道路などの交通状況の監視が必要な道路の交差点、制限速度の高い道路の交差点、歩行者の多い道路の交差点、学校に近い道路の交差点などを、任意に選択・設定することができる。位置検出エリア以内で検出された位置情報は、交通情報提供サーバ200へ送出され、交通情報の生成に利用される。 The specific intersection is an intersection where it is desired to observe the movement of the moving body with respect to the intersection and to generate and provide information on traffic based on the movement of the moving body. Specific intersections that are subject to traffic information include high-traffic roads, roads with poor visibility, roads that require monitoring of traffic conditions, such as roads with high elevation differences and curves, roads with high speed limits, Intersections on roads with many pedestrians, road intersections close to school, etc. can be arbitrarily selected and set. The position information detected within the position detection area is sent to the traffic information providing server 200 and used for generating traffic information.
 位置検出エリアは、特定交差点を含む携帯電話用の通信回線網に設けられた基地局の通信エリア、特定交差点を含む無線ローカルエリアネットワークの通信回線網に設けられた基地局の通信エリア、及び特定交差点を含む高度道路交通システムの通信回線網に設けられた基地局の通信エリアの何れか一つ以上に基づいて設定することができる。これにより、端末装置100が位置検出エリア内に位置するか否かを、端末装置100が備える通信装置20による通信確立を確認する機能を用いて判断することができる。この結果、新たな処理負荷を生じさせることなく、位置検出装置30を起動させるタイミングを判断することができる。 The position detection area includes a communication area of a base station provided in a communication network for a mobile phone including a specific intersection, a communication area of a base station provided in a communication network of a wireless local area network including a specific intersection, and a specific It can be set based on any one or more of the communication areas of the base stations provided in the communication line network of the intelligent transportation system including the intersection. Thereby, it can be judged using the function which confirms the communication establishment by the communication apparatus 20 with which the terminal device 100 is provided whether the terminal device 100 is located in a position detection area. As a result, it is possible to determine the timing for starting the position detection device 30 without causing a new processing load.
 情報送信エリアは、位置検出エリア以内であって、特定交差点の位置を基準に設定された領域であり、具体的には特定交差点を中心にした円形又は楕円形の領域としてもよいし、特定交差点を構成する道路に沿う帯状の領域としてもよいし、特定交差点から延在する複数の道路の形状に沿う矩形、多角形、その他の幾何学形状としてもよい。設定された情報送信エリアの位置情報及び特定交差点の位置情報は、データベース40に地図情報Mに対応づけて又は地図情報Mとは別に記憶してもよいし、適切なタイミングで交通情報提供サーバ200、路側装置300又は基地局から取得してもよい。 The information transmission area is an area within the position detection area and set based on the position of the specific intersection. Specifically, the information transmission area may be a circular or elliptical area centered on the specific intersection. It is good also as a strip | belt-shaped area | region along the road which comprises, and it is good also as a rectangle, a polygon, and other geometric shapes along the shape of the some road extended from a specific intersection. The position information of the set information transmission area and the position information of the specific intersection may be stored in the database 40 in association with the map information M or separately from the map information M, or at a suitable timing at the traffic information providing server 200. It may be acquired from the roadside device 300 or the base station.
 図4は地図情報Mに対応づけられたエリア情報の一例を示す図である。図4に示すエリア情報は、予め選択された特定交差点S1~S4、この特定交差点S1~S4を含むように設定された位置検出エリアTa、Tb、特定交差点S1を基準に設定された情報送信エリアPa1、複数の特定交差点S1~S4を基準に設定された情報送信エリアPa2を設定する例を示す。特定交差点Sの位置、位置検出エリアTの位置(範囲)、情報送信エリアPの位置(範囲)は、緯度・経度などの座標値により定義することができる。 FIG. 4 is a diagram showing an example of area information associated with the map information M. The area information shown in FIG. 4 includes preselected specific intersections S1 to S4, position detection areas Ta and Tb set to include these specific intersections S1 to S4, and information transmission areas set based on the specific intersection S1. An example is shown in which Pa1 and information transmission area Pa2 set based on a plurality of specific intersections S1 to S4 are set. The position of the specific intersection S, the position (range) of the position detection area T, and the position (range) of the information transmission area P can be defined by coordinate values such as latitude and longitude.
 図5は位置検出エリアT,情報送信エリアP及び特定交差点Sの位置関係を説明するための図である。図5に示すように、情報送信エリアPは特定交差点Sを基準として定義され、位置検出エリアTは情報送信エリアPを含む領域として定義される。また、情報送信エリアPは特定交差点Sを含むように定義される。 FIG. 5 is a diagram for explaining the positional relationship between the position detection area T, the information transmission area P, and the specific intersection S. As shown in FIG. 5, the information transmission area P is defined on the basis of the specific intersection S, and the position detection area T is defined as an area including the information transmission area P. The information transmission area P is defined to include the specific intersection S.
 続いて、図3のステップ103において、制御装置10の検出制御機能は、端末装置100が位置検出エリア内に存在するか否かを判断する。具体的に、本実施形態の制御装置10は、通信装置20の通信状況に基づいて、予め選択された特定交差点Sを含むように設定された位置検出エリア以内に端末装置100が存在するか否かを判断する。制御装置10は、ステップ103において、端末装置100が位置検出エリアの外側に存在する場合にはステップ101へ戻り、末装置100が位置検出エリア以内に存在する場合にはステップ104へ進む。 Subsequently, in Step 103 of FIG. 3, the detection control function of the control device 10 determines whether or not the terminal device 100 exists in the position detection area. Specifically, the control device 10 according to the present embodiment determines whether or not the terminal device 100 exists within the position detection area set to include the specific intersection S selected in advance based on the communication status of the communication device 20. Determine whether. In step 103, the control device 10 returns to step 101 when the terminal device 100 exists outside the position detection area, and proceeds to step 104 when the terminal device 100 exists within the position detection area.
 ステップ104において、制御装置10の検出制御機能は、位置検出装置30の第2位置検出機能によりGPSモジュールを起動し、測位衛星から受信した信号に基づいて位置情報を取得する。 In step 104, the detection control function of the control device 10 activates the GPS module by the second position detection function of the position detection device 30, and acquires position information based on the signal received from the positioning satellite.
 ステップ105において、制御装置10の送信制御機能は、ステップ104において取得した位置情報が情報送信エリアPに含まれるか否かに基づいて、端末装置100が情報送信エリアP以内に存在するか否かを判断する。なお、情報送信エリアPは、位置検出エリアTに含まれる領域であって、予め選択された特定交差点Sを中心とする所定直径の円形領域などの予め設定された領域である。 In step 105, the transmission control function of the control device 10 determines whether or not the terminal device 100 exists within the information transmission area P based on whether or not the position information acquired in step 104 is included in the information transmission area P. Judging. The information transmission area P is an area included in the position detection area T, and is a preset area such as a circular area having a predetermined diameter centered on a specific intersection S selected in advance.
 本実施形態の制御装置10は、ステップ105において、端末装置100が情報送信エリア以内に存在しないと判断した場合にはステップ104へ戻り、位置検出を繰り返す。他方、制御装置10は、ステップ105において、端末装置100が情報送信エリア以内に存在すると判断した場合にはステップ106へ進む。 When the control device 10 of this embodiment determines in step 105 that the terminal device 100 does not exist within the information transmission area, the control device 10 returns to step 104 and repeats position detection. On the other hand, if the control device 10 determines in step 105 that the terminal device 100 exists within the information transmission area, the control device 10 proceeds to step 106.
 ステップ106において、制御装置10は、ステップ104において検出された位置情報を、通信装置20を介して交通情報提供サーバ200へ送信させる。このとき、制御装置10は、端末装置100側で検出された速度情報、進行方向、加速度情報、右左折情報などを位置情報とともに、交通情報提供サーバ200へ送出することができる。 In step 106, the control device 10 causes the location information detected in step 104 to be transmitted to the traffic information providing server 200 via the communication device 20. At this time, the control device 10 can send the speed information, the traveling direction, the acceleration information, the right / left turn information, and the like detected on the terminal device 100 side to the traffic information providing server 200 together with the position information.
 本実施形態の制御装置10は、端末装置100の状態が異なる場合には、交通情報として有用な位置情報が異なるという観点から、判断された端末装置100の状態に基づいて、位置検出エリアT及び情報送信エリアPを設定するエリア設定機能を有する。本実施形態の制御装置10は、上述した位置情報の送信処理と並行して、ステップ107のエリア設定処理を行う。 When the state of the terminal device 100 is different, the control device 10 of the present embodiment is based on the determined state of the terminal device 100 from the viewpoint that the position information useful as traffic information is different. An area setting function for setting the information transmission area P is provided. The control device 10 according to the present embodiment performs the area setting process in step 107 in parallel with the position information transmission process described above.
 本実施形態において、制御装置10は位置検出エリア、情報送信エリアを含むエリア情報を、端末装置100(移動体)の状態、例えば移動速度に応じて設定することができる。 In the present embodiment, the control device 10 can set area information including a position detection area and an information transmission area according to the state of the terminal device 100 (moving body), for example, the moving speed.
 特に限定されないが、制御装置10は、位置検出装置30が検出する位置情報の変化に基づいて端末装置100(移動体)の移動速度を算出する。もちろん、制御装置10は、端末装置100(移動体)の移動速度をオートバイ・自動車の車速センサ50から取得することもできる。制御装置10は、振動の情報を、端末装置100、オートバイ又は自動車が備える加速度センサ50から取得する。なお、本明細書では、端末装置100が備える車速センサ、振動センサ、加速センサなどの各種センサをセンサと総称し、符号50を付して説明する。制御装置10は、移動位置を位置検出装置30の第2位置検出機能(GPS)を用いて取得する。なお、端末装置100(移動体)の状態を判断する処理に用いられる位置情報は、前回の位置情報の検出処理において検出された位置情報である。 Although not particularly limited, the control device 10 calculates the moving speed of the terminal device 100 (moving body) based on the change in the position information detected by the position detecting device 30. Of course, the control apparatus 10 can also acquire the moving speed of the terminal device 100 (moving body) from the vehicle speed sensor 50 of a motorcycle / automobile. The control device 10 acquires vibration information from the acceleration sensor 50 included in the terminal device 100, the motorcycle, or the automobile. In the present specification, various sensors such as a vehicle speed sensor, a vibration sensor, and an acceleration sensor included in the terminal device 100 are collectively referred to as sensors, and are described with reference numeral 50. The control device 10 acquires the movement position using the second position detection function (GPS) of the position detection device 30. Note that the position information used in the process of determining the state of the terminal device 100 (moving body) is the position information detected in the previous position information detection process.
 図6Aは、移動体の移動速度に応じたエリア情報の設定処理の処理手順を示すフローチャートである。図6Aに示すように、ステップ121において、制御装置10は、位置検出装置30により検出された位置情報の時間的変化、車速センサ50から端末装置100の移動速度を取得する。ステップ122において、制御装置10は、取得した速度が予め設定された速度領域A(低い速度領域)、速度領域B(中程度の速度領域)、速度領域C(高い速度領域)のいずれに属するかを判断する。速度領域A~Cは、特定交差点の交通状況に応じて適宜に定義することができる。ステップ123において、制御装置10は、移動速度が速度領域A(低い速度領域)に属する場合にはステップ124に進み、第1位置検出エリアT1及び第1情報送信エリアP1を設定する。ステップ125において、制御装置10は移動速度が速度領域B(中程度の速度領域)に属する場合にはステップ126に進み、第2位置検出エリアT2及び第2情報送信エリアP2を設定する。ステップ127において、制御装置10は移動速度が速度領域C(高いの速度領域)に属する場合にはステップ128に進み、第3位置検出エリアT3及び第3情報送信エリアP3を設定する。このとき、第1乃至第3位置検出エリアの広さの関係はT1<T2<T3であり、第1乃至第3情報送信エリアの広さの関係はP1<P2<P3である。つまり、制御装置10は、端末装置100(移動体)の移動速度が低いほど小さい(特定交差点Sに接近した)位置検出エリアT及び情報送信エリアPを設定する。 FIG. 6A is a flowchart showing a processing procedure for setting area information according to the moving speed of the moving object. As shown in FIG. 6A, in step 121, the control device 10 acquires the temporal change in the position information detected by the position detection device 30 and the moving speed of the terminal device 100 from the vehicle speed sensor 50. In step 122, the control device 10 belongs to the preset speed region A (low speed region), speed region B (medium speed region), or speed region C (high speed region). Judging. The speed regions A to C can be appropriately defined according to the traffic situation at a specific intersection. In step 123, when the moving speed belongs to the speed area A (low speed area), the control device 10 proceeds to step 124, and sets the first position detection area T1 and the first information transmission area P1. In step 125, when the moving speed belongs to the speed region B (medium speed region), the control device 10 proceeds to step 126, and sets the second position detection area T2 and the second information transmission area P2. In step 127, when the moving speed belongs to the speed region C (high speed region), the control device 10 proceeds to step 128 and sets the third position detection area T3 and the third information transmission area P3. At this time, the relationship between the widths of the first to third position detection areas is T1 <T2 <T3, and the relationship between the widths of the first to third information transmission areas is P1 <P2 <P3. That is, the control device 10 sets the position detection area T and the information transmission area P that are smaller (approaching the specific intersection S) as the moving speed of the terminal device 100 (moving body) is lower.
 図6Bは、位置検出エリアT1,T2,T3と、情報送信エリアP1,P2,P3の位置関係の例を示す図である。 FIG. 6B is a diagram illustrating an example of a positional relationship between the position detection areas T1, T2, and T3 and the information transmission areas P1, P2, and P3.
 速度の速い移動体については、特定交差点Sから比較的遠くに存在している時点から位置検出を開始し、位置情報を交通情報提供サーバ200へ送出することが好ましい。時間当たりの移動距離が大きいと、特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないという場合が生じるからである。他方、速度の遅い移動体については、特定交差点Sの近くに存在する時点で位置検出を開始し、位置情報を交通情報提供サーバ200へ送出することが好ましい。時間当たりの移動距離が小さい場合には所定周期で検出される位置情報に変化が無く、ほぼ重複した位置情報が交通情報提供サーバ200にアップされてしまうという場合が生じるからである。特に限定されないが、制御装置10は、端末装置100の移動速度、すなわち移動体の移動速度が速いほど面積が大きくなるように、位置検出エリアT及び情報送信エリアPを設定するので、位置検出手段を常時動作させなくても、端末装置の状態に応じた適切なエリアに存在する端末装置の位置情報を収集することができる。これにより、必要な場面で位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 For a fast moving body, it is preferable to start position detection at a time when it is relatively far from the specific intersection S and send the position information to the traffic information providing server 200. This is because if the moving distance per time is large, the location information may not be uploaded to the traffic information providing server 200 even though the vehicle has passed near the specific intersection S. On the other hand, it is preferable to start position detection at a time when the moving body has a low speed near the specific intersection S and send the position information to the traffic information providing server 200. This is because when the moving distance per time is small, there is no change in the position information detected in a predetermined cycle, and there may be a case where almost duplicate position information is uploaded to the traffic information providing server 200. Although not particularly limited, the control device 10 sets the position detection area T and the information transmission area P so that the area increases as the moving speed of the terminal device 100, that is, the moving speed of the moving body increases. Even if the terminal device is not always operated, the position information of the terminal device existing in an appropriate area corresponding to the state of the terminal device can be collected. Thereby, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that the power consumption of the terminal device 100 can be reduced.
 本実施形態の制御装置10は、端末装置100の速度、振動及び位置のうち何れか一つ以上の状態に基づいて判断された移動体の属性(例えば、歩行者、自転車、オートバイ、又はその他の物体の移動手段)が異なる場合には、交通情報として有用な位置情報が異なるという観点から、判断された端末装置100を移動させる移動体の属性に基づいて、位置検出エリアT及び情報送信エリアPを設定するエリア設定機能を有する。本実施形態の制御装置10は、上記位置情報を交通情報提供サーバ200へ送出する処理と並行して、ステップ107のエリア設定処理を行う。制御装置10は位置検出エリア、情報送信エリアを含むエリア情報を、端末装置100の移動速度、振動、移動位置などの状態に基づいて移動体の属性を判断し、判断された属性に応じて位置検出エリアT及び情報送信エリアPを設定する。 The control device 10 according to the present embodiment is configured such that the attribute of the moving object (for example, a pedestrian, a bicycle, a motorcycle, or other) determined based on any one or more of the speed, vibration, and position of the terminal device 100. If the object moving means) are different, the position detection area T and the information transmission area P are determined based on the determined attribute of the moving body that moves the terminal device 100 from the viewpoint that the position information useful as traffic information is different. Have an area setting function. The control device 10 according to the present embodiment performs the area setting process of step 107 in parallel with the process of sending the position information to the traffic information providing server 200. The control device 10 determines the attributes of the moving object based on the state information such as the moving speed, vibration, and moving position of the terminal device 100 based on the area information including the position detection area and the information transmission area. A detection area T and an information transmission area P are set.
 上述したように、本実施形態の制御装置10は、端末装置100の状態を判断する状態判断機能を備える。端末装置100の状態は移動速度、振動、移動している位置(道路中央、車線中央、道路の端、路肩など)を含む。端末装置100の状態は、その端末装置100を携帯する移動体(搬送体)によって変化する。例えば、歩行する人間が携帯する端末装置100、自転車に乗る人間が携帯する端末装置100、オートバイに乗る人間が携帯する端末装置100又はオートバイに搭載された端末装置100、自動車に乗る人間が携帯する端末装置100又は自動車に搭載された端末装置100は、それぞれ移動速度、振動状態、移動位置が異なる。例えば、歩行者が携帯する端末装置100であれば、その移動速度は相対的に低く、振動(加速度・減速度)は小さく、移動位置は歩道領域である。自転車に乗る歩行者が携帯する端末装置100であれば、その移動速度は中程度であり、振動(加速度・減速度)は中程度であり、移動位置は道路の路肩(道路の端)である。オートバイとともに移動する端末装置100であれば、その移動速度は相対的に速く、振動(加速度・減速度)は大きく、移動位置は道路の路肩(道路の端)である。自動車とともに移動する端末装置100であれば、その移動速度は相対的に速く、振動(加速度・減速度)は大きく、移動位置は道路(車線)の中央である。 As described above, the control device 10 of this embodiment includes a state determination function for determining the state of the terminal device 100. The state of the terminal device 100 includes a moving speed, vibration, and a moving position (road center, lane center, road edge, road shoulder, etc.). The state of the terminal device 100 varies depending on the moving body (carrier) carrying the terminal device 100. For example, a terminal device 100 carried by a person walking, a terminal device 100 carried by a person riding a bicycle, a terminal device 100 carried by a person riding a motorcycle, or a terminal device 100 mounted on a motorcycle, carried by a person riding in a car. The terminal device 100 or the terminal device 100 mounted on the automobile has a different moving speed, vibration state, and moving position. For example, in the case of the terminal device 100 carried by a pedestrian, the moving speed is relatively low, the vibration (acceleration / deceleration) is small, and the moving position is a sidewalk area. If the terminal device 100 is carried by a pedestrian riding a bicycle, the moving speed is medium, the vibration (acceleration / deceleration) is medium, and the moving position is the shoulder of the road (the end of the road). . If the terminal device 100 moves with a motorcycle, the moving speed is relatively fast, the vibration (acceleration / deceleration) is large, and the moving position is the shoulder of the road (the end of the road). If the terminal device 100 moves with the automobile, the moving speed is relatively fast, the vibration (acceleration / deceleration) is large, and the moving position is at the center of the road (lane).
 制御装置10は、端末装置100の速度、振動及び位置のうち何れか一つ以上の状態から、端末装置100を移動させる移動体が歩行者、自転車、オートバイ、若しくは自動車の何れの物体であるか又は歩行者、自転車、オートバイ、及び自動車以外の物体であるかの移動体の属性を判断する。具体的に、移動速度が相対的に低く、振動(加速度・減速度)が小さく、移動位置が歩道領域である場合には、移動体は人間であると判断し、移動速度が相対的に低く、振動(加速度・減速度)が中程度であり、移動位置が道路の路肩(道路の端)である場合には、移動体は自転車であると判断し、移動速度が相対的に速く、振動(加速度・減速度)が大きく、移動位置が道路の路肩(道路の端)である場合には移動体はオートバイであると判断し、移動速度が相対的に速く、振動(加速度・減速度)が大きく、移動位置が道路(車線)の中央である場合には移動体は自動車であると判断する。移動体の判断基準は、センサ50の精度等を考慮して実験的に設定する。もちろん、端末装置100を使用する者が移動体の属性(歩行・自転車・オートバイ・自動車)を入力してもよい。 The control device 10 determines whether the moving body that moves the terminal device 100 from any one of the speed, vibration, and position of the terminal device 100 is a pedestrian, bicycle, motorcycle, or automobile. Or the attribute of the moving body which is objects other than a pedestrian, a bicycle, a motorcycle, and a motor vehicle is judged. Specifically, when the moving speed is relatively low, the vibration (acceleration / deceleration) is small, and the moving position is a sidewalk area, it is determined that the moving body is a human and the moving speed is relatively low. If the vibration (acceleration / deceleration) is moderate and the moving position is the shoulder of the road (the end of the road), the moving body is judged to be a bicycle, and the moving speed is relatively fast. If (acceleration / deceleration) is large and the moving position is the shoulder of the road (the end of the road), the moving body is judged to be a motorcycle, and the moving speed is relatively fast, and vibration (acceleration / deceleration) If the movement position is at the center of the road (lane), it is determined that the moving body is an automobile. The criteria for determining the moving object are set experimentally in consideration of the accuracy of the sensor 50 and the like. Of course, the person using the terminal device 100 may input the attributes of the moving object (walking / bicycle / motorcycle / automobile).
 本実施形態の制御装置10は、移動体が歩行者である場合には、第1の面積である第1の位置検出エリアT1及び第2の面積である第2の情報送信エリアP1を設定し、移動体が自転車である場合には、第1の面積よりも大きい第3の面積の第3の位置検出エリアT2及び第2の面積よりも大きい第4の面積の第4の情報送信エリアP2を設定し、移動体がオートバイ又は自動車である場合には、第3の面積よりも大きい第5の面積の第5の位置検出エリアT3及び第4の面積よりも大きい第6の面積の第6の情報送信エリアP3を設定する。 When the moving body is a pedestrian, the control device 10 according to the present embodiment sets the first position detection area T1 that is the first area and the second information transmission area P1 that is the second area. When the moving body is a bicycle, the third position detection area T2 having a third area larger than the first area and the fourth information transmission area P2 having a fourth area larger than the second area. When the mobile body is a motorcycle or a car, the fifth position detection area T3 having a fifth area larger than the third area and the sixth area having a sixth area larger than the fourth area are set. Information transmission area P3 is set.
 図7Aは、移動体の属性に応じたエリア情報の設定処理の処理手順を示すフローチャートである。図7Aに示すように、ステップ131において、制御装置10は、位置検出装置30により検出された位置情報、加速度センサ50からの出力、車速センサ50から出力された情報を取得する。ステップ132において、制御装置10は、取得した各種センサ50の情報に基づいて移動体が歩行者、自転車、又はオートバイ・自動車のいずれの属性に属するかを判断する。ステップ133において、制御装置10は、移動体が歩行者であると判断した場合にはステップ134に進み、第1位置検出エリアT1及び第1情報送信エリアP1を設定する。ステップ135において、制御装置10は移動体が自転車であると判断した場合にはステップ136に進み、第2位置検出エリアT2及び第2情報送信エリアP2を設定する。ステップ137において、制御装置10は移動体がオートバイ又は自動車であると判断した場合にはステップ138に進み、第3位置検出エリアT3及び第3情報送信エリアP3を設定する。このとき、第1乃至第3位置検出エリアの広さの関係はT1<T2<T3であり、第1乃至第3情報送信エリアの広さの関係はP1<P2<P3である。つまり、移動体が歩行者である場合には最も小さい(特定交差点Sに接近した)位置検出エリアT及び情報送信エリアPを設定し、移動体が自転車である場合には中程度の位置検出エリアT及び情報送信エリアPを設定し、移動体がオートバイ又は自動車である場合には最も広い位置検出エリアT及び情報送信エリアPを設定する。 FIG. 7A is a flowchart showing a processing procedure for setting area information according to the attribute of the moving object. As shown in FIG. 7A, in step 131, the control device 10 acquires the position information detected by the position detection device 30, the output from the acceleration sensor 50, and the information output from the vehicle speed sensor 50. In step 132, the control device 10 determines whether the moving object belongs to a pedestrian, a bicycle, a motorcycle, or an automobile based on the acquired information of the various sensors 50. In step 133, when it is determined that the moving body is a pedestrian, the control device 10 proceeds to step 134 and sets the first position detection area T1 and the first information transmission area P1. In step 135, when the control apparatus 10 determines that the moving body is a bicycle, the control apparatus 10 proceeds to step 136, and sets the second position detection area T2 and the second information transmission area P2. In step 137, when the control device 10 determines that the moving body is a motorcycle or a car, the control device 10 proceeds to step 138 and sets the third position detection area T3 and the third information transmission area P3. At this time, the relationship between the widths of the first to third position detection areas is T1 <T2 <T3, and the relationship between the widths of the first to third information transmission areas is P1 <P2 <P3. That is, when the moving body is a pedestrian, the smallest position detection area T and the information transmission area P (approaching the specific intersection S) are set, and when the moving body is a bicycle, the medium position detection area is set. T and the information transmission area P are set, and when the moving body is a motorcycle or an automobile, the widest position detection area T and the information transmission area P are set.
 図7Bは、移動体が歩行者である場合の位置検出エリアT1及び情報送信エリアP1、移動体が自転車である場合の位置検出エリアT2及び情報送信エリアP2、移動体がオートバイ・自動車である場合の位置検出エリアT3及び情報送信エリアP3の位置関係の例を示す図である。 FIG. 7B shows a position detection area T1 and an information transmission area P1 when the mobile body is a pedestrian, a position detection area T2 and an information transmission area P2 when the mobile body is a bicycle, and a case where the mobile body is a motorcycle / automobile. It is a figure which shows the example of the positional relationship of this position detection area T3 and the information transmission area P3.
 歩行者の移動速度は相対的に低いため、特定交差点Sの近くに存在する時点で位置検出を開始し、位置情報を交通情報提供サーバ200へ送出することが好ましい。時間当たりの移動距離が小さい場合には所定周期で検出される位置情報に変化が無く、ほぼ重複した位置情報が交通情報提供サーバ200にアップされてしまうという場合が生じるからである。他方、オートバイや自動車の移動速度は相対的に速いため、特定交差点Sから比較的遠くに存在している時点から位置検出を開始し、位置情報を交通情報提供サーバ200へ送出することが好ましい。時間当たりの移動距離が大きいと、特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないという場合が生じるからである。これにより、必要な場面で位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 Since the movement speed of the pedestrian is relatively low, it is preferable to start position detection when it is near the specific intersection S and send the position information to the traffic information providing server 200. This is because when the moving distance per time is small, there is no change in the position information detected in a predetermined cycle, and there may be a case where almost duplicate position information is uploaded to the traffic information providing server 200. On the other hand, since the moving speed of motorcycles and automobiles is relatively fast, it is preferable to start position detection from a point in time that is relatively far from the specific intersection S and send the position information to the traffic information providing server 200. This is because if the moving distance per time is large, the location information may not be uploaded to the traffic information providing server 200 even though the vehicle has passed near the specific intersection S. Thereby, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that the power consumption of the terminal device 100 can be reduced.
 さらに、本実施形態の制御装置10は、端末装置100が移動する道路の制限速度、道路形状、道路幅などの道路属性が異なる場合には、交通情報として有用な位置情報が異なるという観点から、端末装置100が移動する道路の属性に基づいて、位置検出エリアT及び情報送信エリアPを設定するエリア設定機能を有する。制御装置10は、位置検出エリア、情報送信エリアを含むエリア情報を、端末装置100を備える移動体が移動する道路の道路属性に応じて設定することができる。 Furthermore, the control device 10 of the present embodiment, when road attributes such as the speed limit, road shape, and road width of the road on which the terminal device 100 moves are different, from the viewpoint that useful location information is different as traffic information. It has an area setting function for setting the position detection area T and the information transmission area P based on the attribute of the road on which the terminal device 100 moves. The control device 10 can set the area information including the position detection area and the information transmission area according to the road attribute of the road on which the moving body including the terminal device 100 moves.
 このため、本実施形態の制御装置10は道路属性判断機能を備える。本実施形態の制御装置10は、位置検出装置30により検出された端末装置100の位置情報が含まれる道路の属性を、道路属性情報を含む地図情報Mを参照して判断する。本実施形態の道路属性情報は、各道路の制限速度、道路幅、道路に沿って設けられた歩道の路幅、道路形状、高さを含む。つまり、地図情報Mは、少なくとも各道路の高さを含む位置情報(座標情報)に対応づけた制限速度の情報、道路幅の情報、歩道幅の情報、道路形状の情報を有する。制御装置10は、検出された端末装置100の位置情報(緯度、経度、高さ)が含まれる道路の道路属性情報を読み込む。本実施形態の制御装置10は、端末装置100の位置情報として高さ情報をも取得し、取得した高さ情報に基づいて、端末装置100の位置情報(高さ情報を含む)と道路の属性とが対応づけられた地図情報を参照し、道路の属性を判断するので、立体交差道路のように緯度経度は共通するが高さの異なる道路を別の道路として識別することができる。これにより、各道路の属性を正確に判断することができる。 For this reason, the control device 10 of the present embodiment has a road attribute determination function. The control device 10 according to the present embodiment determines a road attribute including the position information of the terminal device 100 detected by the position detection device 30 with reference to the map information M including the road attribute information. The road attribute information of the present embodiment includes the speed limit of each road, the road width, the width of a sidewalk provided along the road, the road shape, and the height. That is, the map information M includes speed limit information, road width information, sidewalk width information, and road shape information associated with position information (coordinate information) including at least the height of each road. The control device 10 reads the road attribute information of the road including the detected position information (latitude, longitude, height) of the terminal device 100. The control device 10 of the present embodiment also acquires height information as position information of the terminal device 100, and based on the acquired height information, position information (including height information) of the terminal device 100 and road attributes. Since the road attribute is determined by referring to the map information associated with “,” it is possible to identify a road having a common latitude and longitude but different height, such as a three-dimensional intersection road, as another road. Thereby, the attribute of each road can be judged correctly.
 図8は、端末装置100が移動する道路の属性に応じたエリア情報の設定処理の処理手順を示すフローチャートである。図8に示すように、ステップ141において、制御装置10は道路属性の情報が対応づけられた地図情報Mを参照する。続くステップ142において、制御装置は、端末装置100を移動させる移動体が走行する道路の道路属性を取得する。道路属性には、道路の制限速度、道路形状、道路幅のいずれか一つ以上を含む。ステップ143において、端末装置100は、道路属性に応じたエリア設定ルールを参照する。ステップ144において、端末装置100は、エリア設定ルールに従い、端末装置100が移動する道路の道路属性に基づいて、位置検出エリアT及び情報送信エリアPを設定する。 FIG. 8 is a flowchart showing a processing procedure for setting area information according to the attribute of the road on which the terminal device 100 moves. As shown in FIG. 8, in step 141, the control device 10 refers to map information M associated with road attribute information. In subsequent step 142, the control device acquires the road attribute of the road on which the moving body that moves the terminal device 100 travels. The road attribute includes at least one of a road speed limit, a road shape, and a road width. In step 143, the terminal device 100 refers to the area setting rule according to the road attribute. In step 144, the terminal device 100 sets the position detection area T and the information transmission area P based on the road attribute of the road on which the terminal device 100 moves according to the area setting rule.
 本実施形態では、道路の制限速度が速いほど広い位置検出エリアT及び情報送信エリアPを設定することを道路属性に応じたエリア設定ルールとして定義する。制御装置10は、端末装置100が移動する道路の制限速度が速い(高い)ほど広い(面積の大きい)位置検出エリアT及び情報送信エリアPを設定する。道路の制限速度が速い(高い)ほど、その道路を走行する移動体の速度が高くなることが予測されるので、位置検出エリアT及び情報送信エリアPを広く設定する。 In the present embodiment, setting a wider position detection area T and information transmission area P as the road speed limit is faster is defined as an area setting rule according to the road attribute. The control device 10 sets the position detection area T and the information transmission area P that are wider (larger in area) as the speed limit on the road on which the terminal device 100 moves is faster (higher). Since the speed of the moving body traveling on the road is predicted to increase as the speed limit on the road is faster (higher), the position detection area T and the information transmission area P are set wider.
 図9に示すように、矢印A方向に沿う道路Wと矢印Bに沿う道路Lは略直交し、特定交差点Sを構成する。矢印A方向に沿う道路Wの制限車速は50km/hであり、矢印B方向に沿う道路Lの制限車速は30km/hである。本実施形態では、制限速度が低い道路Lの延在方向(B方向)に短く、道路の幅方向に短いエリア情報2を設定し、制限速度が高い道路Wの延在方向(A方向)に長く、道路の幅方向にも長いエリア情報1を設定する。同図に示すように、本実施形態の制御装置10は、制限速度の高い道路Wが延在するA方向に沿う長さの方が、制限速度の低い道路Lが延在するB方向に沿う長さよりも長い形状のエリア情報1を設定する。同図では、簡潔な説明をするために、位置検出エリアTと情報送信エリアPを含む上位概念のエリア情報を図示するが、いずれも同じ方針に基づいて各エリアを設定することができる。このとき、情報送信エリアPが位置検出エリアTに含まれるように設定すればよい。 As shown in FIG. 9, the road W along the arrow A direction and the road L along the arrow B are substantially orthogonal and constitute a specific intersection S. The speed limit of the road W along the direction of the arrow A is 50 km / h, and the speed limit of the road L along the direction of the arrow B is 30 km / h. In the present embodiment, the area information 2 that is short in the extending direction (B direction) of the road L having a low speed limit and short in the width direction of the road is set, and in the extending direction (A direction) of the road W having a high speed limit. Area information 1 that is long and long in the width direction of the road is set. As shown in the figure, in the control device 10 of the present embodiment, the length along the A direction in which the road W with a high speed limit extends is along the B direction in which the road L with a low speed limit extends. Area information 1 having a shape longer than the length is set. In the figure, for the sake of concise explanation, the upper conceptual area information including the position detection area T and the information transmission area P is illustrated, but each area can be set based on the same policy. At this time, the information transmission area P may be set to be included in the position detection area T.
 また、制御装置10は、端末装置100が移動する道路の路幅が大きい(広い)ほど面積の大きい(広い)位置検出エリアT及び情報送信エリアPを設定する。道路の路幅が大きい(広い)ほど、その道路を走行する移動体の速度が高くなる傾向があるので、上述した理由により、位置検出エリアT及び情報送信エリアPを広く設定する。 Further, the control device 10 sets a position detection area T and an information transmission area P that have a larger (wide) area as the road width of the road on which the terminal device 100 moves is larger (wider). As the road width is larger (wider), the speed of the moving body traveling on the road tends to increase. Therefore, the position detection area T and the information transmission area P are set wider for the reasons described above.
 同様の観点から、制御装置10は、端末装置100が移動する歩道又は端末装置100が移動する道路に沿って設けられた歩道の路幅が大きい(広い)ほど面積の大きい(広い)位置検出エリアT及び情報送信エリアPを設定する。歩道の路幅が大きい(広い)ほど、その歩道又はその歩道に沿う道路の交通量が多く、走行する移動体の数が高くなる傾向があるので、上述した理由により、位置検出エリアT及び情報送信エリアPを広く設定する。これにより、上記発明と同様の効果を奏することができる。 From the same viewpoint, the control device 10 has a position detection area with a larger (wide) area as the width of the sidewalk provided along the sidewalk along which the terminal device 100 moves or the sidewalk along which the terminal device 100 moves is larger (wider). T and information transmission area P are set. As the width of the sidewalk is larger (wider), the amount of traffic on the sidewalk or the road along the sidewalk tends to increase, and the number of moving objects that run tends to increase. For the reasons described above, the position detection area T and information A wide transmission area P is set. Thereby, the same effect as the above-mentioned invention can be produced.
 図9に示すように、矢印A方向に沿う道路Wと矢印B方向に沿う道路Lは略直交し、特定交差点Sを構成する。矢印A方向に沿う道路Wの道路幅の方が、矢印B方向に沿う道路Lの道路幅の方が狭い。本実施形態では、道路幅が狭い道路Lについては延在方向(B方向)に短く、道路の幅方向に短いエリア情報2を設定し、道路幅が広い道路Wについては延在方向(A方向)に長く、道路の幅方向に長いエリア情報1を設定する。本実施形態の制御装置10は、道路幅の広い道路Wが延在するA方向に沿う長さの方が、道路幅の狭い道路Lが延在するB方向に沿う長さよりも長い形状のエリア情報1(位置検出エリアT、情報送信エリアPを含む)を設定する。歩道についても同様である。同図では、簡潔な説明をするために、位置検出エリアTと情報送信エリアPを含む上位概念のエリア情報を図示するが、いずれも同じ方針に基づいて各エリアを設定することができる。このとき、情報送信エリアPが位置検出エリアTに含まれるように設定すればよい。 As shown in FIG. 9, the road W along the arrow A direction and the road L along the arrow B direction are substantially orthogonal to each other and constitute a specific intersection S. The road width of the road W along the arrow A direction is narrower than the road width of the road L along the arrow B direction. In the present embodiment, the area information 2 that is short in the extending direction (B direction) for the road L with a narrow road width and short in the width direction of the road is set, and the extending direction (A direction for the road W with a wide road width is set. ) And area information 1 that is long in the width direction of the road is set. In the control device 10 of the present embodiment, the area along the A direction in which the wide road W extends extends longer than the length along the B direction in which the narrow road L extends. Information 1 (including position detection area T and information transmission area P) is set. The same applies to the sidewalk. In the figure, for the sake of concise explanation, the upper conceptual area information including the position detection area T and the information transmission area P is illustrated, but each area can be set based on the same policy. At this time, the information transmission area P may be set to be included in the position detection area T.
 また、制御装置10は、端末装置100が移動する道路の形状に沿う形状の位置検出エリアT及び情報送信エリアPを設定する。例えば、2本の道路が交差する十字路では、特定交差点Sから延びる道路を含むように円形、楕円形、十字形のエリア情報(位置検出エリアT及び情報送信エリアPを含む)を設定する。また、図10に示すように、2本の道路が交差するT字交差点では、特定交差点Sから延びる道路のみを含むように、略三角形のエリア情報(位置検出エリアT及び情報送信エリアPを含む)。つまり、道路Lが延在するB方向については道路Lが存在しない領域が含まれないように、エリア情報(位置検出エリアT及び情報送信エリアPを含む)を設定する。さらに、交差する道路が曲率を有する場合には、その曲率に沿ったエリア情報(位置検出エリアT及び情報送信エリアPを含む)を設定する。これにより、道路が存在しない部分が含まれないように位置検出エリアT及び情報送信エリアPを設定することができるので、交通情報としての位置情報が不要な領域で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 Further, the control device 10 sets a position detection area T and an information transmission area P having a shape along the shape of the road on which the terminal device 100 moves. For example, in a crossroad where two roads intersect, circular, elliptical, and cross-shaped area information (including a position detection area T and an information transmission area P) is set so as to include a road extending from the specific intersection S. In addition, as shown in FIG. 10, a T-shaped intersection where two roads intersect includes a substantially triangular area information (including a position detection area T and an information transmission area P) so as to include only a road extending from the specific intersection S. ). That is, the area information (including the position detection area T and the information transmission area P) is set so that the area where the road L does not exist is not included in the B direction in which the road L extends. Furthermore, when the intersecting road has a curvature, area information (including the position detection area T and the information transmission area P) along the curvature is set. As a result, the position detection area T and the information transmission area P can be set so as not to include a portion where no road exists, so position detection and position information transmission are performed in an area where position information as traffic information is unnecessary. Therefore, the power consumption of the terminal device 100 can be reduced.
 このように、本実施形態の交通情報提供システム1000は、端末装置100が移動する道路の属性に応じて位置検出エリアT及び情報送信エリアPを設定するので、位置検出装置30を常時起動させなくても、道路の属性に応じた適切なエリアに存在する端末装置100の位置情報を収集することができる。なお、上述した、端末装置100の移動速度、移動体の属性、又は道路属性に応じて位置検出エリアT及び情報送信エリアPを設定する手法は、それぞれを独立に用いてもよいし、二つ以上の手法を組み合わせてもよい。 As described above, the traffic information providing system 1000 according to the present embodiment sets the position detection area T and the information transmission area P according to the attribute of the road on which the terminal device 100 moves, so that the position detection device 30 is not always activated. However, it is possible to collect the position information of the terminal device 100 existing in an appropriate area according to the road attribute. In addition, the method of setting the position detection area T and the information transmission area P according to the moving speed of the terminal device 100, the attribute of the moving object, or the road attribute described above may be used independently. The above methods may be combined.
 次に、制御装置10の送信制御機能により行われる位置情報を送信する周期の制御手法について説明する。本実施形態の制御装置10は、特定交差点Sに対する端末装置100の存在位置に応じて、交通情報として有用な位置情報の取得頻度が異なるという観点から、特定交差点Sに対する端末装置100の位置に基づいて、位置情報を送信する周期(頻度)を決定する。 Next, a cycle control method for transmitting position information performed by the transmission control function of the control device 10 will be described. The control device 10 of the present embodiment is based on the position of the terminal device 100 with respect to the specific intersection S from the viewpoint that the acquisition frequency of position information useful as traffic information varies depending on the position of the terminal device 100 with respect to the specific intersection S. Thus, the cycle (frequency) of transmitting the position information is determined.
 たとえば、制御装置10は、道路上を移動するのではなく、道路沿いの店舗などに存在する端末装置100の位置情報の送信を抑制する観点から、特定交差点Sに対する端末装置100の存在方向を算出し、端末装置100の存在方向と特定交差点Sを構成する道路の延在方向との成す角度Δθが所定値以上である場合には、位置情報を交通情報提供サーバに送信する周期を長くする又は送信を中止するという処理を実行する。これにより、特定交差点Sの交通には関係しない、道路沿いの店舗、自宅、駐車場に存在する端末装置100の位置情報が交通情報提供サーバ200に送信される頻度を低くすることができる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の送信を抑制できるので、端末装置100の電力消費量を低減することができる。 For example, the control device 10 does not move on the road, but calculates the presence direction of the terminal device 100 with respect to the specific intersection S from the viewpoint of suppressing the transmission of the position information of the terminal device 100 existing in a store along the road. If the angle Δθ formed by the direction in which the terminal device 100 is present and the direction in which the road constituting the specific intersection S extends is greater than or equal to a predetermined value, the cycle for transmitting the position information to the traffic information providing server is lengthened. A process of canceling transmission is executed. Thereby, the frequency with which the positional information of the terminal device 100 existing in the store along the road, at home, and in the parking lot, which is not related to the traffic at the specific intersection S, is transmitted to the traffic information providing server 200 can be reduced. As a result, while useful position information is selectively collected, transmission of unnecessary position information can be suppressed, so that power consumption of the terminal device 100 can be reduced.
 また、制御装置10は、道路が交わる特定交差点S近くに存在する移動体は他の移動体との距離が近くなり、注意が必要となる可能性がある。他方、特定交差点Sから遠くの位置に存在する移動体は他の移動体との距離が相対的に大きく、特定交差点近傍を走行するときほど他の移動体に注意を払わなくてもよい場合がある。このような観点から、特定交差点から端末装置100の存在位置までの距離が長いほど、位置情報を交通情報提供サーバ200に送信する周期を長くする。つまり、特定交差点Sとの位置から検出された位置情報との距離が短いほど、位置情報を交通情報提供サーバ200に送信する周期を短くする。つまり、特定交差点Sから遠く、移動体間の距離が離隔して互いの位置情報を共有する必要性が低い状況においては、制御装置10は低い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させる。他方、特定交差点Sに近く、移動体間の距離が接近して互いの位置情報を共有することが望ましい状況においては、制御装置10は高い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させる。この結果、有用な位置情報を選択的に送信させる一方で、不要な位置情報の送信を抑制できるので、端末装置100の電力消費量を低減することができる。 In addition, the control device 10 may require attention because a mobile object existing near the specific intersection S where the road intersects is closer to another mobile object. On the other hand, there are cases in which a moving body that is located far from the specific intersection S has a relatively large distance from the other moving bodies, and it is not necessary to pay attention to the other moving bodies as much as when traveling near the specific intersection. is there. From this point of view, the longer the distance from the specific intersection to the location where the terminal device 100 is, the longer the period for transmitting the location information to the traffic information providing server 200. That is, the shorter the distance from the position information detected from the position with the specific intersection S, the shorter the period for transmitting the position information to the traffic information providing server 200. That is, in a situation where the distance between the moving bodies is far from the specific intersection S and the necessity of sharing the position information with each other is low, the control device 10 has a low frequency in the position information of each moving body (terminal device 100). Is transmitted to the traffic information providing server 200. On the other hand, in a situation where it is desirable that the distance between the moving objects is close to each other and the position information between the moving objects is close to each other and it is desirable to share each other's position information, the control device 10 frequently acquires the position information of each moving object (terminal device 100). It is transmitted to the traffic information providing server 200. As a result, while transmitting useful position information selectively, transmission of unnecessary position information can be suppressed, so that power consumption of the terminal device 100 can be reduced.
 制御装置10は、道路が交わる特定交差点Sに接近する端末装置100の移動速度が速いほど移動体同士の距離の変化が大きく、急激に接近する可能性があるという観点から、特定交差点Sに接近する端末装置100の移動速度が速いほど、位置情報を交通情報提供サーバ200に送信する周期を短くする。これにより、移動体が高い速度で特定交差点Sに接近し、互いの位置情報を共有することが望ましい状況においては、制御装置10は高い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の収集を抑制できるので、端末装置100の電力消費量を低減することができる。 The control device 10 approaches the specific intersection S from the viewpoint that the faster the moving speed of the terminal device 100 approaching the specific intersection S where the road intersects, the greater the change in the distance between the moving bodies and the possibility of approaching rapidly. The faster the moving speed of the terminal device 100 is, the shorter the cycle for transmitting the position information to the traffic information providing server 200 is. As a result, in a situation where it is desirable for the moving body to approach the specific intersection S at a high speed and to share the position information of each other, the control device 10 frequently transmits the position information of each moving body (terminal device 100) to the traffic. The information is sent to the information providing server 200. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
 他方、停止又は低い速度で移動する端末装置100の位置情報は交通情報としては有用ではないという観点から、制御装置10は、端末装置100の移動速度が所定値未満乃至ゼロである場合には、位置情報をサーバに送信する周期を長くする。同様の観点から、端末装置100の移動速度が所定値未満乃至ゼロである時間が所定時間以上である場合には、端末装置100が停止状態であると判断できる。端末装置100が停止している場合には、特定交差点S近傍の交通に影響を与えることがないため、位置情報を交通情報提供サーバ200に送信する処理を中止させる。さらに、同様の観点から、端末装置100が特定交差点Sから離隔する場合には、その移動体が特定交差点Sの交通に関与しないと判断できるので、位置情報を交通情報提供サーバ200に送信する処理を中止させる。これにより、所定時間以上停止している移動体、特定交差点Sから離れていく移動体のように、特定交差点Sの交通に関与しない移動体の位置情報が交通情報提供サーバ200へ送信されることを抑制することができる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の収集を抑制できるので、端末装置100の電力消費量を低減することができる。 On the other hand, from the viewpoint that the position information of the terminal device 100 that stops or moves at a low speed is not useful as traffic information, the control device 10 determines that when the moving speed of the terminal device 100 is less than a predetermined value or zero, Increase the period for sending location information to the server. From the same viewpoint, when the time during which the moving speed of the terminal device 100 is less than or equal to a predetermined value is equal to or longer than the predetermined time, it can be determined that the terminal device 100 is in a stopped state. When the terminal device 100 is stopped, the traffic in the vicinity of the specific intersection S is not affected. Therefore, the process of transmitting the position information to the traffic information providing server 200 is stopped. Furthermore, from the same point of view, when the terminal device 100 is separated from the specific intersection S, it can be determined that the mobile body is not involved in the traffic of the specific intersection S, so that the process of transmitting location information to the traffic information providing server 200 To cancel. As a result, the position information of the moving body that is not involved in the traffic at the specific intersection S, such as a moving object that has been stopped for a predetermined time or more, or a moving object that is moving away from the specific intersection S, is transmitted to the traffic information providing server 200. Can be suppressed. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
 図3のフローチャートに戻り、ステップ108の通信頻度設定処理について説明する。本実施形態の制御装置10は、上述した位置情報の送信処理と並行して、通信頻度設定処理(ステップ108)を行う。以下、図11A及び図11Bのフローチャートに基づいて、通信頻度の変更処理の具体的な制御手順を説明する。 Returning to the flowchart of FIG. 3, the communication frequency setting process in step 108 will be described. The control device 10 of the present embodiment performs a communication frequency setting process (step 108) in parallel with the position information transmission process described above. Hereinafter, a specific control procedure of the communication frequency changing process will be described based on the flowcharts of FIGS. 11A and 11B.
 まず、ステップ151において、制御装置10は、特定交差点Sの位置情報S(Cx,Cy)を取得する。特定交差点Sの位置情報は、通信を行う基地局から取得してもよいし、自己が備えるデータベース40から読み込んでもよいし、交通情報提供サーバ200から通信回線網400を介して取得してもよい。 First, in step 151, the control device 10 acquires position information S (Cx, Cy) of the specific intersection S. The location information of the specific intersection S may be acquired from a base station that performs communication, may be read from the database 40 provided therein, or may be acquired from the traffic information providing server 200 via the communication network 400. .
 次に、ステップ152において、制御装置10は位置検出装置30の第2位置検出機能を起動してGPSにより端末装置100の現在位置Q(Px、Py)を取得する。 Next, in step 152, the control device 10 activates the second position detection function of the position detection device 30 and acquires the current position Q (Px, Py) of the terminal device 100 by GPS.
 そして、ステップ153において、制御装置10は特定交差点Sに対する端末装置100の相対位置(距離R・方向θ)を計算する。図12に、特定交差点S(Cx,Cy)に対する端末装置100の位置Q(Px、Py)の距離R・方向θを示す。 In step 153, the control device 10 calculates the relative position (distance R · direction θ) of the terminal device 100 with respect to the specific intersection S. FIG. 12 shows the distance R and direction θ of the position Q (Px, Py) of the terminal device 100 with respect to the specific intersection S (Cx, Cy).
 特に限定されないが、距離R・方向θは数1に示す式により求めることができる。
Figure JPOXMLDOC01-appb-M000001
Although not particularly limited, the distance R · direction θ can be obtained by the equation shown in Equation 1.
Figure JPOXMLDOC01-appb-M000001
 ステップ154において、制御装置10は特定交差点Sに対する端末装置100の距離Rに応じて送信頻度を設定する。制御装置10は、特定交差点Sに対する距離Rが長いほど、位置情報を送信する送信頻度を低く(周期を長く)設定する。たとえば、特定交差点Sに対する距離Rが0<R≦10mである場合には送信頻度を1回/1sとし、距離Rが10m<R≦20mである場合には1回/3sとし、距離Rが30m<Rである場合には1回/10sとする。 In step 154, the control device 10 sets the transmission frequency according to the distance R of the terminal device 100 with respect to the specific intersection S. The control device 10 sets the transmission frequency for transmitting the position information to be lower (the cycle is longer) as the distance R to the specific intersection S is longer. For example, when the distance R to the specific intersection S is 0 <R ≦ 10 m, the transmission frequency is 1 time / 1 s, and when the distance R is 10 m <R ≦ 20 m, 1 time / 3 s, and the distance R is When 30 m <R, it is set to 1 / 10s.
 また、ステップ154において、制御装置10は、特定交差点Sに対する端末装置100の存在方向に応じて送信頻度を設定する。制御装置10は、特定交差点Sに対する端末装置100の存在する方向θが道路の延在方向に対する角度から離れるほど、位置情報を送信する送信頻度を低く(周期を長く)設定する。たとえば、特定交差点Sに対する端末装置100の存在する方向θと、特定交差点Sを構成する道路に対する方向との成す角度Δθが所定値以上である、つまり、端末装置100が特定交差点Sを構成する道路上に存在しない場合には、位置情報を送信する送信頻度を低く(周期を長く)設定し、角度Δθが所定値未満である、つまり、端末装置100が特定交差点Sを構成する道路上に存在する場合には、位置情報を送信する送信頻度を高く(周期を短く)設定する。たとえば、特定交差点Sを構成する道路に対する角度Δθが0<θ≦10度である場合には送信頻度を1回/1sとし、角度Δθが10度<Δθ≦30度である場合には1回/10sとし、角度θが30度<Δθである場合には1回/10分又は送信中止とする。 In step 154, the control device 10 sets the transmission frequency according to the direction in which the terminal device 100 is present with respect to the specific intersection S. The control device 10 sets the transmission frequency for transmitting the position information to be lower (the cycle is longer) as the direction θ in which the terminal device 100 exists with respect to the specific intersection S is further away from the angle with respect to the road extending direction. For example, the angle Δθ formed between the direction θ in which the terminal device 100 exists with respect to the specific intersection S and the direction with respect to the road configuring the specific intersection S is equal to or greater than a predetermined value, that is, the road in which the terminal device 100 configures the specific intersection S. If it does not exist, the transmission frequency for transmitting the position information is set low (long period), and the angle Δθ is less than a predetermined value, that is, the terminal device 100 exists on the road constituting the specific intersection S. In this case, the transmission frequency for transmitting the position information is set high (the cycle is shortened). For example, when the angle Δθ with respect to the road constituting the specific intersection S is 0 <θ ≦ 10 degrees, the transmission frequency is 1 time / 1s, and when the angle Δθ is 10 degrees <Δθ ≦ 30 degrees, it is 1 time. / 10 s, and when the angle θ is 30 degrees <Δθ, once / 10 minutes or transmission is stopped.
 ステップ155において、制御装置10は、端末装置100の位置情報の履歴に基づいて端末装置100が特定交差点S(Cx,Cy)に接近しているか否かを判断する。このとき、先述した角度Δθが所定値未満であることを接近状態の判断条件に追加してもよい。端末装置100が特定交差点Sに接近している場合にはステップ156へ進み、ステップ154において設定した位置情報の送信頻度を高くする。他方、端末装置100が特定交差点Sに接近していない場合にはステップ158へ進み、さらに端末装置100の位置情報の履歴に基づいて端末装置100が停止しているか否かを判断する。停止していない場合にはステップ159へ進み、ステップ154において設定した位置情報の送信頻度を低くする。他方、ステップ158において端末装置100が停止していると判断した場合にはステップ160へ進み位置情報の送信を停止する。ステップ156、159、160の処理後、ステップ157へ進み、端末装置100が情報送信エリア以内に存在する場合は送信頻度の制御を継続し、端末装置100が情報送信エリアを出た場合には送信頻度の制御を終了する。 In step 155, the control device 10 determines whether or not the terminal device 100 is approaching the specific intersection S (Cx, Cy) based on the history of the position information of the terminal device 100. At this time, it may be added to the determination condition of the approach state that the angle Δθ described above is less than a predetermined value. When the terminal device 100 is approaching the specific intersection S, the process proceeds to step 156, and the frequency of transmission of the position information set in step 154 is increased. On the other hand, if the terminal device 100 has not approached the specific intersection S, the process proceeds to step 158, and it is further determined whether or not the terminal device 100 is stopped based on the history of position information of the terminal device 100. If not stopped, the process proceeds to step 159, and the transmission frequency of the position information set in step 154 is lowered. On the other hand, if it is determined in step 158 that the terminal device 100 is stopped, the process proceeds to step 160 and transmission of position information is stopped. After the processing of Steps 156, 159, and 160, the process proceeds to Step 157. When the terminal device 100 is within the information transmission area, control of the transmission frequency is continued, and when the terminal device 100 leaves the information transmission area, transmission is performed. End frequency control.
 図11Bは、位置情報の送信頻度の制御処理の他の例を示す。図11Bに示すフローチャートのステップ161~164は、図11Aに示すステップ151~154と共通するので、説明を省略する。 FIG. 11B shows another example of the process for controlling the transmission frequency of position information. Steps 161 to 164 in the flowchart shown in FIG. 11B are the same as steps 151 to 154 shown in FIG.
 図11Bに示すステップ165において、制御装置10は、端末装置100の位置情報の履歴と地図情報Mの道路の位置に基づいて端末装置100が特定交差点S(Cx,Cy)を構成する道路上に存在するか否かを判断する。このとき、先述した端末装置100が特定交差点Sに接近しているか否かを判断条件として追加してもよい。端末装置100が特定交差点Sを構成する道路上を移動していると判断された場合にはステップ166へ進み、ステップ164において設定した位置情報の送信頻度を高くする。他方、端末装置100が特定交差点Sを構成する道路上を移動していない場合にはステップ168へ進み、さらに端末装置100の位置情報の履歴に基づいて端末装置100が停止しているか否かを判断する。停止していない場合にはステップ169へ進み、ステップ164において設定した位置情報の送信頻度を低くする。他方、ステップ168において端末装置100が停止していると判断した場合にはステップ170へ進み位置情報の送信を停止する。ステップ166、169、170の処理後、ステップ167へ進み、端末装置100が情報送信エリア以内に存在する場合は送信頻度の制御を継続し、端末装置100が情報送信エリアを出た場合には送信頻度の制御を終了する。 In step 165 shown in FIG. 11B, the control device 10 places the terminal device 100 on the road constituting the specific intersection S (Cx, Cy) based on the position information history of the terminal device 100 and the road position of the map information M. Determine if it exists. At this time, whether or not the terminal device 100 described above is approaching the specific intersection S may be added as a determination condition. If it is determined that the terminal device 100 is moving on the road constituting the specific intersection S, the process proceeds to step 166, and the frequency of transmission of the position information set in step 164 is increased. On the other hand, if the terminal device 100 is not moving on the road that constitutes the specific intersection S, the process proceeds to step 168, and whether or not the terminal device 100 is stopped based on the history of the position information of the terminal device 100 is determined. to decide. If not stopped, the process proceeds to step 169, where the frequency of transmission of the position information set in step 164 is lowered. On the other hand, if it is determined in step 168 that the terminal device 100 is stopped, the process proceeds to step 170 and transmission of position information is stopped. After the processing of Steps 166, 169, and 170, the process proceeds to Step 167. When the terminal device 100 is within the information transmission area, control of the transmission frequency is continued, and when the terminal device 100 leaves the information transmission area, transmission is performed. End frequency control.
 ここで、本実施形態の端末装置100について、位置検出装置30の位置検出手法が異なる態様について説明する。位置検出処理以外の処理は、先に説明した処理と共通するので、本例の端末装置100についてその説明を援用する。 Here, the aspect in which the position detection method of the position detection device 30 is different for the terminal device 100 of the present embodiment will be described. Since processes other than the position detection process are common to the processes described above, the description of the terminal device 100 of this example is used.
 先述したように、本実施形態の位置検出装置30は、いわゆる簡易位置情報を検出する第1位置検出機能とGPS情報に基づく高精度の第2位置検出機能とのいずれか一方を起動させて位置情報を取得することができる。 As described above, the position detection device 30 according to the present embodiment activates one of the first position detection function for detecting so-called simple position information and the second position detection function with high accuracy based on GPS information. Information can be acquired.
 先述したように、本実施形態の位置検出装置30は、誤差エリア検出機能を備える。誤差エリア検出機能は、第1位置検出機能及び/又は第2位置検出機能の位置情報の検出精度に基づいて、端末装置100が所定の確率以上で存在する範囲(領域)を誤差エリアとして算出する。所定の確率は任意に設定される。本実施形態の位置検出装置30は、端末装置100が存在する可能性が所定値以上であると判断されるエリアを円形の誤差エリアとして地図情報に重畳して示す。 As described above, the position detection device 30 of the present embodiment has an error area detection function. The error area detection function calculates a range (region) in which the terminal device 100 exists with a predetermined probability or more as an error area based on the detection accuracy of the position information of the first position detection function and / or the second position detection function. . The predetermined probability is arbitrarily set. The position detection device 30 of the present embodiment shows an area in which the possibility that the terminal device 100 exists is determined to be equal to or greater than a predetermined value as a circular error area superimposed on the map information.
 第1位置検出機能により通信の可否に基づいて判断された現在位置は、単一の通信可能エリア又は複数の通信可能エリアの組み合わせにより判断されるため、現在位置をピンポイント(一点)で示すことは困難である。また、第2位置検出機能を用いた場合であっても、衛星から受信する信号は山やビルの存在によるマルチパスの発生、衛星の位置、衛星間の配置(位置関係)などの影響を受けるため、GPSの測距精度は一般に数百メートルから数キロメートル以上と言われており、現在位置をピンポイント(一点)で示すことは困難である。 Since the current position determined based on the availability of communication by the first position detection function is determined by a single communicable area or a combination of plural communicable areas, the current position is indicated by a pinpoint (one point) It is difficult. Even when the second position detection function is used, the signal received from the satellite is affected by the occurrence of multipath due to the presence of mountains and buildings, the position of the satellite, and the arrangement (positional relationship) between the satellites. Therefore, it is generally said that the ranging accuracy of GPS is several hundred meters to several kilometers or more, and it is difficult to indicate the current position as a pinpoint (one point).
 本実施形態の誤差エリア検出機能は、通信装置20が通信可能な基地局を検索し、通信可能な基地局の出力に基づいて通信可能エリアを演算する。そして、通信可能な基地局の通信可能エリアが重複し、端末装置100が存在するであろうと予測されるエリアを、誤差を含んだ誤差エリアとして算出する機能である。また、本実施形態の誤差エリア検出機能は、測位衛星が発信する信号の受信状況、可視衛星の数、衛星の配置(ばらつき度、各衛星間の距離)、ビルや山の存在などの地理的環境要因に基づいて誤差の度合を求め、誤差の度合に応じて端末装置100が存在するであろうと予測されるエリアを誤差が含まれた誤差エリアとして算出する機能である。本実施形態では、この誤差エリアを存在確率が考慮された現在位置として用いる場合がある。 The error area detection function of the present embodiment searches for a base station with which the communication device 20 can communicate, and calculates a communicable area based on the output of the communicable base station. This is a function for calculating an area in which communicable areas of communicable base stations overlap and the terminal device 100 is predicted to exist as an error area including an error. In addition, the error area detection function of this embodiment is based on the reception status of signals transmitted from positioning satellites, the number of visible satellites, the arrangement of satellites (variation degree, distance between each satellite), the presence of buildings and mountains, etc. This is a function of calculating the degree of error based on environmental factors and calculating an area where the terminal device 100 is predicted to exist according to the degree of error as an error area including an error. In the present embodiment, this error area may be used as the current position in consideration of the existence probability.
 本実施形態の制御装置10の検出制御機能は、先述した、基地局との通信状況に基づいて位置を検出する第1位置検出機能、GPSなどの衛星からの信号に基づいて位置を検出する第2位置検出機能の何れか一方を動作させて位置情報を検出させることができる。つまり、制御装置10は、位置検出装置30の第1位置検出機能と第2位置検出機能の動作を切り替えることができる。 The detection control function of the control device 10 according to the present embodiment includes the first position detection function that detects the position based on the communication status with the base station, the first position detection function that detects the position based on a signal from a satellite such as GPS. The position information can be detected by operating either one of the two position detection functions. That is, the control device 10 can switch the operation of the first position detection function and the second position detection function of the position detection device 30.
 具体的に、制御装置10は、通信装置20の通信状況に基づいて、先述した位置検出エリア以内に端末装置が存在すると判断した場合であって、さらに位置検出装置30により検出された位置情報又は誤差エリアの少なくとも一部が、位置検出エリア以内に特定交差点Sを含むエリアとして設定された第2位置検出エリアに重ならない場合には、第1位置検出機能に位置情報を検出させる。他方、制御装置10は、先述した位置検出エリア以内に端末装置が存在すると判断した場合であって、さらに位置検出装置30により検出された誤差エリアの少なくとも一部が、位置検出エリア以内に特定交差点Sを含むエリアとして設定された第2位置検出エリアに重なる場合には、第2位置検出機能により検出された位置情報を通信手段に送信させる。この処理における「第2位置検出エリア」は、後述する位置情報を送信するエリアとして定義された「情報送信エリア」とすることができる。 Specifically, the control device 10 is a case where it is determined that the terminal device exists within the above-described position detection area based on the communication status of the communication device 20, and the position information detected by the position detection device 30 or If at least a part of the error area does not overlap the second position detection area set as an area including the specific intersection S within the position detection area, the first position detection function is caused to detect the position information. On the other hand, when the control device 10 determines that the terminal device exists within the position detection area described above, at least a part of the error area detected by the position detection device 30 is within a specific intersection within the position detection area. When overlapping with the second position detection area set as an area including S, the position information detected by the second position detection function is transmitted to the communication means. The “second position detection area” in this process can be an “information transmission area” defined as an area for transmitting position information to be described later.
 この制御手順を図13のフローチャートに示す。図13のフローチャートは、図3に示す端末装置100のフローチャートと基本的に共通する。異なる点は、ステップ101において、現在位置として「誤差エリア」を求める点と、ステップ105に相当する判断処理が、ステップ103とステップ104の間にステップ173として実行される点である。 This control procedure is shown in the flowchart of FIG. The flowchart of FIG. 13 is basically the same as the flowchart of the terminal device 100 shown in FIG. The difference is that, in step 101, an “error area” is obtained as the current position, and a determination process corresponding to step 105 is executed as step 173 between step 103 and step 104.
 図13に示すように、まず、ステップ101において、制御装置10は位置検出装置30に現在位置として「誤差エリア」を検出させる。この誤差エリアの算出手法は特に限定されず、出願時において「位置精度円」などの名称で知られた、所在する確率が所定値以上のエリアの算出手法を適宜に用いることができる。次に、ステップ102において制御装置10はエリア情報を参照する。ステップ107において、エリア情報が変更されている場合には、新たに設定されたエリア情報を取得する。このエリア情報は特定交差点Sの位置、位置検出エリアTの位置、及び情報送信得エリアPの位置を含む。ステップ103において、制御装置10は誤差エリアが位置検出エリアTと重複するか否かを判断する。 As shown in FIG. 13, first, in step 101, the control device 10 causes the position detection device 30 to detect an “error area” as the current position. The method for calculating the error area is not particularly limited, and a method for calculating an area whose probability of being located is a predetermined value or more, which is known by a name such as “positional accuracy circle” at the time of filing, can be appropriately used. Next, in step 102, the control device 10 refers to the area information. In step 107, if the area information has been changed, the newly set area information is acquired. This area information includes the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P. In step 103, the control device 10 determines whether or not the error area overlaps with the position detection area T.
 そして、誤差エリアが位置検出エリアTと重複した場合には、さらにステップ173へ進み、誤差エリアが情報送信エリアPと重複するか否かを判断する。誤差エリアが情報送信エリアPと重複するか否かは、一部が重複した場合、所定割合以上の部分が重複した場合、又は全部が重複した場合のいずれかの基準に基づいて判断することができる。ステップ173において、誤差エリアが情報送信エリアPと重なった場合には、ステップ104に進み、第2位置検出機能を起動しGPSを用いて位置情報を取得する。他方、誤差エリアが情報送信エリアPと重ならない場合には、第2位置検出機能、つまりGPSなどの衛星信号の受信装置を起動させることなく、ステップ101以降を繰り返す。その後、ステップ106において、制御装置10は、第2位置検出機能により取得した位置情報を所定の通信頻度で交通情報提供サーバ200へ送出する。そして、交通情報提供サーバ200からの交通情報を受信したら、後述するステップ109以降の処理へ進む。 If the error area overlaps with the position detection area T, the process further proceeds to step 173 to determine whether or not the error area overlaps with the information transmission area P. Whether or not the error area overlaps with the information transmission area P may be determined based on one of the following criteria: when a part overlaps, when a part of a predetermined ratio or more overlaps, or when all overlap. it can. In step 173, when the error area overlaps with the information transmission area P, the process proceeds to step 104, where the second position detection function is activated and position information is acquired using GPS. On the other hand, if the error area does not overlap with the information transmission area P, Step 101 and subsequent steps are repeated without activating the second position detection function, that is, the satellite signal receiving device such as GPS. Thereafter, in step 106, the control device 10 sends the position information acquired by the second position detection function to the traffic information providing server 200 at a predetermined communication frequency. And if the traffic information from the traffic information provision server 200 is received, it will progress to the process after step 109 mentioned later.
 ところで、第1位置検出機能が基地局との通信状況に基づいて検出する位置情報の精度は、第2位置検出機能を用いた場合よりも低いが、位置検出処理に消費される電力消費量は少ない。他方、第2位置検出機能が衛星から受信した信号に基づいて検出する位置情報の精度は、第1位置検出機能を用いた場合よりも高いが、位置検出処理に消費される電力消費量は大きい。 By the way, the accuracy of the position information detected by the first position detection function based on the communication status with the base station is lower than when the second position detection function is used, but the power consumption consumed for the position detection process is Few. On the other hand, the accuracy of the position information detected by the second position detection function based on the signal received from the satellite is higher than when the first position detection function is used, but the power consumption consumed for the position detection process is large. .
 本実施形態における端末装置100は、位置検出エリア内に存在するが、特定交差点Sに近い第2位置検出エリア内に進入していない場合には、位置検出精度は低くても消費電力の低い第1位置検出機能により位置を検出させるので、端末装置100の消費電力を抑制することができる。他方、端末装置100が、位置検出エリア内に存在し、さらに、特定交差点Sに近い第2位置検出エリア(又は情報送信エリア)内に進入した場合には、消費電力は高いが位置検出精度の高い第2位置検出機能により位置を検出させるので、特定交差点S近くにおいて検出される位置情報の精度を選択的に高くすることができる。このように、要求される精度に応じて位置情報の検出手法を切り替えるので、位置情報の検出に消費される電力を低減させることができる。 The terminal device 100 in the present embodiment exists in the position detection area, but when the terminal apparatus 100 does not enter the second position detection area close to the specific intersection S, the terminal device 100 has low power consumption even if the position detection accuracy is low. Since the position is detected by the one position detection function, the power consumption of the terminal device 100 can be suppressed. On the other hand, when the terminal device 100 exists in the position detection area and further enters the second position detection area (or information transmission area) near the specific intersection S, the power consumption is high but the position detection accuracy is high. Since the position is detected by the high second position detection function, the accuracy of the position information detected near the specific intersection S can be selectively increased. Thus, since the detection method of position information is switched according to the required accuracy, the power consumed for detection of position information can be reduced.
 また、後述するように、端末装置100の位置情報又は誤差エリアが情報送信エリアと重なる場合は、端末装置100は交通情報提供サーバ200に位置情報を送出する必要があるので、精度の高い位置情報を得ることが好ましい。本処理によれば、位置検出をするか否の判断をする場面では精度が相対的に低いが消費電力が低い第1位置検出機能を起動し、交通情報提供サーバ200へ位置情報を送出する場面では精度が相対的に高い第2位置検出機能を起動するので、交通情報提供サーバ200に精度の高い位置情報を提供しつつも、位置情報の検出処理のために消費される電力は低減させることができる。 As will be described later, when the position information or error area of the terminal device 100 overlaps with the information transmission area, the terminal device 100 needs to send the position information to the traffic information providing server 200. It is preferable to obtain According to this process, in the scene where it is determined whether or not to detect the position, the first position detection function with relatively low accuracy but low power consumption is activated and the position information is sent to the traffic information providing server 200. Then, since the second position detection function with relatively high accuracy is activated, it is possible to reduce the power consumed for the position information detection processing while providing highly accurate position information to the traffic information providing server 200. Can do.
 続いて、交通情報提供サーバ200について説明する。 Subsequently, the traffic information providing server 200 will be described.
 本実施形態の交通情報提供サーバ200は、端末装置100から収集した、特定交差点Sを通行する移動体の存否及び速度、特定交差点Sを右左折する移動体の存否及び速度、横断歩道付近における移動体の存否及び速度に基づいて交通情報を生成する。そして、特定交差点Sの近傍に存在する各移動体に他の移動体に関する交通情報を配信する。各移動体は提供された交通情報により、他の移動体が特定交差点Sに進入するか否か、その移動体が右左折するか、特定交差点Sを横断する歩行者が存在するか否かを事前に知ることができる。このため、車両等の運転者は他の移動体の動きに応じた対応を事前にすることができ、歩行者は移動体の存在に注意しながら移動することができる。 The traffic information providing server 200 according to the present embodiment collects from the terminal device 100, the presence / absence and speed of the moving body passing through the specific intersection S, the presence / absence and speed of the moving body turning right and left at the specific intersection S, and movement in the vicinity of the pedestrian crossing. Traffic information is generated based on the presence and speed of the body. And the traffic information regarding another moving body is distributed to each moving body existing in the vicinity of the specific intersection S. Each mobile unit determines whether another mobile unit enters the specific intersection S, whether the mobile unit makes a right or left turn, or whether there is a pedestrian crossing the specific intersection S according to the traffic information provided. You can know in advance. For this reason, a driver such as a vehicle can make a response according to the movement of another moving body in advance, and a pedestrian can move while paying attention to the presence of the moving body.
 図2に示すように、交通情報提供サーバ200は、制御装置210と、通信装置220と、データベース240とを備える。通信装置220は、端末装置100と、路側装置300と通信回線網400を介して情報の授受を行う。本実施形態の通信装置220は、制御装置210が生成した後述する交通情報を、通信回線網400を介して接続可能な端末装置100又は路側装置300へ送信する。データベース240は、道路属性情報、エリア設定情報(位置検出エリアの位置、情報送信エリアの位置)、特定交差点Sの位置、横断歩道の位置、車道位置、歩道位置などを含む地図情報Mを記憶する。データベース240が記憶する情報は、通信装置220を介して端末装置100へ送出することができる。 As shown in FIG. 2, the traffic information providing server 200 includes a control device 210, a communication device 220, and a database 240. The communication device 220 exchanges information via the terminal device 100, the roadside device 300, and the communication line network 400. The communication device 220 according to the present embodiment transmits traffic information (described later) generated by the control device 210 to the terminal device 100 or the roadside device 300 that can be connected via the communication network 400. The database 240 stores map information M including road attribute information, area setting information (position detection area position, information transmission area position), specific intersection S position, pedestrian crossing position, roadway position, sidewalk position, and the like. . Information stored in the database 240 can be sent to the terminal device 100 via the communication device 220.
 交通情報提供サーバ200の制御装置210は、CPU211と、ROM212と、RAM213とを備え、端末装置100が送信した位置情報を収集し、収集された位置情報に基づいて交通情報を生成する生成機能を有する。交通情報には、特定交差点Sの位置、位置検出エリアの位置、情報送信エリアの位置、他の端末装置100(移動体)の位置情報、他の端末装置100(移動体)の速度、他の端末装置100(移動体)の速度、他の端末装置100(移動体)の移動方向、他の端末装置100とともに移動する移動体の属性(歩行者、自転車、オートバイ、車両の別)を含ませることができる。交通情報に含まれる他の端末装置100(移動体)の位置情報を含む各種情報は、特定交差点Sの位置、位置検出エリアの位置、情報送信エリアの位置と関連づけることができる。 The control device 210 of the traffic information providing server 200 includes a CPU 211, a ROM 212, and a RAM 213. The control device 210 has a generation function for collecting the location information transmitted by the terminal device 100 and generating the traffic information based on the collected location information. Have. The traffic information includes the position of the specific intersection S, the position of the position detection area, the position of the information transmission area, the position information of the other terminal device 100 (moving body), the speed of the other terminal device 100 (moving body), the other Include the speed of the terminal device 100 (moving body), the moving direction of the other terminal device 100 (moving body), and the attributes of the moving body that moves with the other terminal devices 100 (different from pedestrians, bicycles, motorcycles, and vehicles). be able to. Various information including the position information of the other terminal device 100 (mobile body) included in the traffic information can be associated with the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area.
 特に、本実施形態の制御装置210は、各端末装置100から収集した位置情報の誤差を考慮して、交通情報の基礎となる位置情報を補正し、補正した位置情報に基づいて交通情報を生成する機能を備える。 In particular, the control device 210 according to the present embodiment corrects location information that is the basis of traffic information in consideration of errors in location information collected from each terminal device 100, and generates traffic information based on the corrected location information. It has a function to do.
 具体的に、本実施形態の制御装置210は、通信装置400を介して端末装置100が検出した位置情報を収集し、この収集した位置情報をアクセス可能な地図情報上にプロットする位置情報収集機能と、地図情報上にプロットされた位置情報群に基づいて、道路の位置を算出する道路位置算出機能と、算出された道路の位置と、地図情報上に定義された道路の位置とを比較して、端末装置100から受信した位置情報の補正量を算出する補正量算出機能と、生成機能と、送信制御機能と、を有する。 Specifically, the control device 210 according to the present embodiment collects position information detected by the terminal device 100 via the communication device 400 and plots the collected position information on accessible map information. And the road position calculation function for calculating the position of the road based on the position information group plotted on the map information, and the calculated road position and the road position defined on the map information are compared. And a correction amount calculation function for calculating the correction amount of the position information received from the terminal device 100, a generation function, and a transmission control function.
 一般に、GPSなどの測位衛星から発信された信号は電離層での光の屈折、可視衛星の数、衛星の配置、ビル・山の反射によるマルチパスの影響を受けるので、地上にて受信する際には地点ごとに位置計測精度が異なる場合がある。つまり、ある特定交差点S近傍において計測された複数の位置情報に共通の誤差が生じる場合がある。端末装置100が道路を走行しているのであれば、その位置情報は実際の道路上の地点を示すものである。本実施形態の交通情報提供サーバ200は、実際の道路上の地点と地図情報上に予め定義されている道路上の地点を比較することにより、実際に計測された位置情報が基準となる地図情報に対してずれが生じているか、及びずれ量がどれほどであるかを算出し、そのずれ量を考慮した交通情報を生成する。 In general, signals transmitted from positioning satellites such as GPS are affected by the refraction of light in the ionosphere, the number of visible satellites, the arrangement of the satellites, and the multipath caused by the reflection of buildings and mountains. The position measurement accuracy may vary from point to point. That is, a common error may occur in a plurality of pieces of position information measured in the vicinity of a specific intersection S. If the terminal device 100 is traveling on a road, the position information indicates a point on the actual road. The traffic information providing server 200 according to the present embodiment compares the actual road location with a location on the road that is defined in advance on the map information, so that the map information based on the actually measured location information is used. The amount of deviation and the amount of deviation are calculated, and traffic information considering the amount of deviation is generated.
 交通情報提供サーバ200の制御装置210は、実際の道路上の地点と地図情報上に予め定義されている道路上の地点を比較することにより、実際に計測された位置情報が基準となる地図情報に対してずれが生じているか、及びずれ量がどれほどであるかを算出する。 The control device 210 of the traffic information providing server 200 compares the actual road location with a location on the road defined in advance on the map information, so that the map information based on the actually measured location information Is calculated, and how much the deviation is.
 そして、交通情報提供サーバ200の制御装置210は、算出された位置情報の補正量に基づいて、特定交差点Sの位置、位置検出エリアの位置、及び情報送信エリアの位置を補正し、この補正後の特定交差点Sの位置、位置検出エリアの位置、及び情報送信エリアの位置を含む交通情報を生成する。生成された交通情報は通信装置220を介して端末装置100へ送出される。 Then, the control device 210 of the traffic information providing server 200 corrects the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount of the position information. Traffic information including the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area is generated. The generated traffic information is sent to the terminal device 100 via the communication device 220.
 また、制御装置210は、算出された位置情報の補正量に基づいて、端末装置100に特定交差点Sの位置、位置検出エリアの位置、及び情報送信エリアの位置を補正させる(書き換えさせる)補正指令を含む交通情報を生成する。生成された補正指令を含む交通情報は通信装置220を介して端末装置100へ送出される。 Further, the control device 210 causes the terminal device 100 to correct (rewrite) the position of the specific intersection S, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount of the position information. Generate traffic information including The traffic information including the generated correction command is sent to the terminal device 100 via the communication device 220.
 これにより、端末装置200は、現在位置における位置検出状況に適合するように補正された特定交差点Sの位置、位置検出エリアTの位置、及び情報送信エリアPの位置に基づいて位置情報の検出及び位置情報の送信を実行することができるので、特定交差点S近傍の交通情報にとって有用ではない位置情報が検出及び送出されることを抑制することができる。この結果、端末装置100の電力消費量を低減することができる。 As a result, the terminal device 200 detects position information based on the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P, which are corrected to match the position detection situation at the current position. Since transmission of position information can be executed, it is possible to suppress detection and transmission of position information that is not useful for traffic information in the vicinity of the specific intersection S. As a result, the power consumption of the terminal device 100 can be reduced.
 本実施形態の制御装置210は、端末装置100から収集し、地図情報上にプロットされた位置情報から線形を抽出し、この抽出した線形から道路の位置を算出する。そして、制御装置210は、この算出された道路の交点の位置と地図情報M上に定義された特定交差点Sの位置とのずれ量に基づいて、端末装置100から受信した位置情報の補正量を算出する。これにより、実際に計測された位置情報にずれが生じている場合であっても、測定誤差を見込んだ特定交差点Sを算出し、位置検出エリアT及び情報送信エリアPを設定することができる。これにより、実測される位置情報に誤差が含まれていても、特定交差点S近傍の端末装置100を正確に選択することができる。この結果、特定交差点S近傍以外の端末装置100に位置情報の検出・送信を行わせることを抑制し、端末装置100の電力消費量を低減することができる。 The control device 210 of the present embodiment extracts a line shape from the position information collected from the terminal device 100 and plotted on the map information, and calculates the position of the road from the extracted line shape. Then, the control device 210 calculates the correction amount of the position information received from the terminal device 100 based on the deviation amount between the calculated position of the intersection of the road and the position of the specific intersection S defined on the map information M. calculate. As a result, even if there is a deviation in the actually measured position information, the specific intersection S that allows for the measurement error can be calculated, and the position detection area T and the information transmission area P can be set. Thereby, even if an error is included in the actually measured position information, the terminal device 100 near the specific intersection S can be accurately selected. As a result, it is possible to suppress the terminal device 100 other than the vicinity of the specific intersection S from detecting and transmitting position information, and to reduce the power consumption of the terminal device 100.
 本実施形態の制御装置210は、位置情報の補正にあたり、道路のうち車道の位置を基準に補正量を判断する観点から移動速度の高い端末装置100の位置情報から車道の位置を算出する。具体的に、交通情報提供サーバ210の制御装置210は、端末装置100から位置情報とともに移動速度を取得し、端末装置100が検出した位置情報及び移動速度を収集し、この収集した位置情報と移動速度を対応づけて、アクセス可能な地図情報上にプロットし、地図情報上にプロットされた位置情報のうち、所定値以上の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる車道の位置を算出する。 In the correction of the position information, the control device 210 of the present embodiment calculates the position of the roadway from the position information of the terminal device 100 having a high moving speed from the viewpoint of determining the correction amount based on the roadway position in the road. Specifically, the control device 210 of the traffic information providing server 210 acquires the movement speed together with the position information from the terminal apparatus 100, collects the position information and movement speed detected by the terminal apparatus 100, and collects the collected position information and movement. Corresponding speeds are plotted on accessible map information, and included in the road based on positional information groups associated with moving speeds of a predetermined value or more among the positional information plotted on the map information Calculate the position of the roadway.
 他方、本実施形態の制御装置210は、位置情報の補正にあたり、道路のうち車道の位置を基準に補正量を判断する観点から、移動速度の低い端末装置100の位置情報から歩道の位置を算出する。具体的に、交通情報提供サーバ210の制御装置210は、端末装置100から位置情報とともに移動速度を取得し、端末装置100が検出した位置情報及び移動速度を収集し、この収集した位置情報と移動速度を対応づけて、アクセス可能な地図情報上にプロットし、地図情報上にプロットされた位置情報のうち、所定値未満の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる歩道の位置を算出する。ちなみに、この歩道には、車道上に設けられた横断歩道をも含む。 On the other hand, the control device 210 according to the present embodiment calculates the position of the sidewalk from the position information of the terminal device 100 having a low moving speed from the viewpoint of determining the correction amount based on the position of the roadway in the road when correcting the position information. To do. Specifically, the control device 210 of the traffic information providing server 210 acquires the movement speed together with the position information from the terminal apparatus 100, collects the position information and movement speed detected by the terminal apparatus 100, and collects the collected position information and movement. Corresponding speeds are plotted on accessible map information, and included in the road based on positional information groups associated with moving speeds less than a predetermined value among the positional information plotted on the map information Calculate the position of the sidewalk. Incidentally, this sidewalk includes a pedestrian crossing provided on the roadway.
 これにより、車道の位置又は歩道の位置に基づいて、位置情報の補正量を正確に算出することができる。車道と歩道とは平行に延在するものの、その位置が異なるため、車道上を移動する端末装置100の位置情報と歩道上を移動する端末装置100の移動情報とを識別したほうが、車道上を移動する端末装置100の位置情報と歩道上を移動する端末装置100の移動情報とを識別しないよりも、道路の位置を正確に算出することができる。 Thereby, the correction amount of the position information can be accurately calculated based on the position of the roadway or the position of the sidewalk. Although the roadway and the sidewalk extend in parallel, but their positions are different, it is better to identify the position information of the terminal device 100 moving on the roadway and the movement information of the terminal device 100 moving on the sidewalk on the roadway. The position of the road can be calculated more accurately than not identifying the position information of the moving terminal apparatus 100 and the movement information of the terminal apparatus 100 moving on the sidewalk.
 また、車道を移動する移動体(自動車・オートバイ)の位置情報及びその動きと、歩道を移動する移動体(歩行者)の位置情報及びその動きを識別して、端末装置100に提供することができる。つまり、本処理によれば、「移動体が特定交差点Sに向かって移動中」という情報を、「歩行者が(歩道を)特定交差点Sに向かって移動中」又は「車両が(車道を)特定交差点Sに向かって移動中」と具体的にすることができる。このように、交通情報において車道と歩道を識別することにより、移動体の属性、注意を向ける場所、移動体の動きを具体的に端末装置100に伝えることができる。 Further, it is possible to identify the positional information and movement of a moving body (car / motorcycle) moving on a roadway and the positional information and movement of a moving body (pedestrian) moving on a sidewalk, and provide the terminal apparatus 100 with the identified information. it can. That is, according to this process, the information that “the moving body is moving toward the specific intersection S” is referred to as “the pedestrian is moving (on the sidewalk) toward the specific intersection S” or “the vehicle is (on the road)”. Specifically, “moving toward the specific intersection S”. In this way, by identifying the roadway and the sidewalk in the traffic information, it is possible to specifically convey the attributes of the moving object, the place where attention is paid, and the movement of the moving object to the terminal device 100.
 特に限定されないが、道路には上り車線と下り車線が含まれる場合があること、さらに上り又は下り車線には複数の車線が含まれる場合があることを考慮し、本実施形態の制御装置210は、道路全体に散在する位置情報から一の線形を抽出するのではなく、地図情報上にプロットされた位置情報のうち偏差が所定値未満の位置情報群に基づいて、道路に含まれる複数の車線の位置を算出する。さらに、制御装置210は、算出された車線の位置と、地図情報上に定義された車線の位置とを比較し、端末装置100から受信した位置情報の補正量を算出する。これにより、偏差(バラツキ)が所定値未満の位置情報群に基づいて複数の車線の位置をそれぞれ算出することができる。これにより、道路に複数の車線が含まれる場合であっても、端末装置100の位置情報に基づいて特定交差点Sの位置を抽出し、正確な交通情報を生成することができる。 Although not particularly limited, the control device 210 of the present embodiment takes into consideration that the road may include an up lane and a down lane, and that the up or down lane may include a plurality of lanes. A plurality of lanes included in the road based on the position information group whose deviation is less than a predetermined value among the position information plotted on the map information, instead of extracting one linear from the position information scattered on the entire road The position of is calculated. Further, the control device 210 compares the calculated lane position with the lane position defined on the map information, and calculates the correction amount of the position information received from the terminal device 100. Thereby, the positions of a plurality of lanes can be calculated based on the position information group whose deviation (variation) is less than a predetermined value. Thereby, even when a plurality of lanes are included on the road, the position of the specific intersection S can be extracted based on the position information of the terminal device 100, and accurate traffic information can be generated.
 また、本実施形態の制御装置210は、特定交差点S内では右左折する移動体が存在し、これら右左折する(直進しない)移動体の位置情報を考慮すると道路の位置に誤差が生じる。このため、地図情報上にプロットされた位置情報のうち、特定交差点S内にプロットされた位置情報以外の位置情報群に基づいて道路の位置を算出する。特定交差点S内にプロットされた位置情報は、予め設定された地図情報上の特定交差点Sの位置(緯度・経度)又は実際に計測された道路の位置に基づいて算出された特定交差点Sの位置(緯度・経度)から所定距離のエリア内に含まれる位置情報である。この所定距離は、交差点の中心から、横断歩道、停止線を含む範囲を定義する距離である。 Further, the control device 210 of the present embodiment has a moving body that turns right and left in the specific intersection S, and an error occurs in the position of the road in consideration of the position information of the moving body that turns right and left (does not go straight). For this reason, the position of the road is calculated based on the position information group other than the position information plotted in the specific intersection S among the position information plotted on the map information. The position information plotted in the specific intersection S is the position of the specific intersection S calculated based on the position (latitude / longitude) of the specific intersection S on the preset map information or the actually measured road position. This is position information included in an area at a predetermined distance from (latitude / longitude). This predetermined distance is a distance that defines a range including a pedestrian crossing and a stop line from the center of the intersection.
 特定交差点Sを直進するのではなく、特定交差点Sを右左折する端末装置100の位置情報は道路や車線の中心からずれる傾向がある傾向があるが、本実施形態の制御装置10は、特定交差点Sの位置(緯度・経度)から所定距離のエリア内に含まれる位置情報を除外した位置情報に基づいて道路の位置を算出するので、正確な道路の位置及び正確な特定交差点Sの位置を求めることができる。この結果、正確な交通情報を生成することができる。 Although the position information of the terminal device 100 that turns right and left at the specific intersection S instead of going straight on the specific intersection S tends to deviate from the center of the road or lane, the control device 10 of the present embodiment Since the position of the road is calculated based on the position information excluding the position information included in the area of the predetermined distance from the position (latitude / longitude) of S, the exact position of the road and the exact position of the specific intersection S are obtained. be able to. As a result, accurate traffic information can be generated.
 図3に戻り、交通情報提供サーバ200の動作を説明する。 Returning to FIG. 3, the operation of the traffic information providing server 200 will be described.
 ステップ201において、本実施形態の交通情報提供サーバ200は、端末装置100から移動体(端末装置100)の位置情報、速度情報、移動方向(向き)を受信し、地図情報M上にプロットして情報を収集する。 In step 201, the traffic information providing server 200 of the present embodiment receives the position information, speed information, and moving direction (direction) of the moving object (terminal device 100) from the terminal device 100, and plots it on the map information M. Collect information.
 ステップ202において、本実施形態の交通情報提供サーバ200は、収集した位置情報等に基づいて交通情報を生成する。 In step 202, the traffic information providing server 200 of the present embodiment generates traffic information based on the collected location information and the like.
 ステップ203において、本実施形態の交通情報提供サーバ200は、実際に収集した端末装置100の位置情報に基づいて、特定交差点Sの位置、エリア情報(位置検出エリアTの位置、情報送信エリアPの位置を含む)及び交通情報を補正する。この補正の手法について後述する。 In step 203, the traffic information providing server 200 of the present embodiment, based on the actually collected location information of the terminal device 100, the location of the specific intersection S, the area information (the location of the location detection area T, the information transmission area P). (Including location) and traffic information. This correction method will be described later.
 ステップ203において、本実施形態の交通情報提供サーバ200は、補正した交通情報・特定交差点の位置、エリア情報(位置検出エリアTの位置、情報送信エリアPの位置を含む)を端末装置100へ送信する。 In step 203, the traffic information providing server 200 of this embodiment transmits the corrected traffic information / specific intersection position and area information (including the position of the position detection area T and the position of the information transmission area P) to the terminal device 100. To do.
 ここで、交通情報・特定交差点の位置、エリア情報の補正処理について、図14のフローチャートに基づいて、説明する。 Here, the traffic information / specific intersection position and area information correction processing will be described based on the flowchart of FIG.
 図14に示すように、ステップ212において、本実施形態の交通情報提供サーバ200は、図3のステップ202の処理と並行して、所定時間内に端末装置100から収集した位置情報を地図情報Mなどの所定の座標上にプロットする。 As shown in FIG. 14, in step 212, the traffic information providing server 200 of the present embodiment uses the location information collected from the terminal device 100 within a predetermined time in parallel with the processing of step 202 in FIG. Plot on the given coordinates.
 図15は、特定交差点Sを基準とする情報送信エリア内の端末装置100から取得した位置情報がプロットD11,D12…D1n,D21,D22…D2nされた地図情報Mの一例を示す図である。特定交差点S近傍の端末装置100の多くは、特定交差点Sを構成する道路上を移動するため、図15に示すように、位置情報は道路に沿ってプロットD11,D12…D1n,D21,D22…D2nされる。 FIG. 15 is a diagram illustrating an example of map information M in which position information acquired from the terminal device 100 in the information transmission area with the specific intersection S as a reference is plotted D11, D12... D1n, D21, D22. Since most of the terminal devices 100 near the specific intersection S move on the roads constituting the specific intersection S, as shown in FIG. 15, the position information is plotted along the roads as D11, D12... D1n, D21, D22. D2n.
 ステップ213において、本実施形態の交通情報提供サーバ200は、地図情報Mに含まれる道路情報を参照し、特定交差点Sを構成する道路の位置(座標)を参照し、プロットされた位置情報から特定交差点Sを構成する道路に沿う線形を抽出する。 In step 213, the traffic information providing server 200 according to the present embodiment refers to the road information included in the map information M, refers to the position (coordinates) of the road that constitutes the specific intersection S, and identifies from the plotted position information. The alignment along the road that forms the intersection S is extracted.
 例えば、予め選択された特定交差点Sが2つの道路が十字で交差していることが道路情報に記憶されている場合には、プロットされた位置情報からはx軸に沿う線形とy軸に沿う線形が抽出されることが予測される。このため、制御装置210は、直交する線形Lx1及びLy1又は線形Lx2及びLy2を位置情報群から抽出する、各位置情報のプロットポイント(プロットされた座標)からの距離の和が最小になる線分を位置情報群から抽出する。位置情報群から線形Lx1及びLy1又は線形Lx2及びLy2を抽出する手法は特に限定されず、最小二乗法などの既知の手法を適宜に用いることができる。 For example, when the road information stores that a specific intersection S selected in advance intersects two roads with a cross, the plotted position information indicates alignment along the x-axis and alignment along the y-axis. It is expected that the linearity will be extracted. Therefore, the control device 210 extracts the linear Lx1 and Ly1 or the linear Lx2 and Ly2 that are orthogonal from the position information group, and the line segment that minimizes the sum of the distances from the plot points (plotted coordinates) of each position information. Are extracted from the position information group. A method for extracting the linear Lx1 and Ly1 or the linear Lx2 and Ly2 from the position information group is not particularly limited, and a known method such as a least square method can be appropriately used.
 また、特定交差点Sを構成する各道路に上り下りの2つの車線が含まれる場合がある。この場合は、図15に示すように、直交する線形ペアとして、線形Lx1及びLy1と線形Lx2及びLy2の2つのペアが抽出される。線形Lx1及びLy1と線形Lx2及びLy2の交差角度(例えば90度)は既知であり、道路情報に含ませておくことができる。x軸方向に沿う線形Lx1と線形Lx2は平行であり、線形Lx1と線形Lx2との間隔(例えば5m)は既知であり、道路情報に含ませておくことができる。y軸方向に沿う線形Ly1と線形Ly2も同様である。さらに、各道路の車線数も既知であり、道路情報に含ませておくことができる。制御装置210は、特定交差点Sを構成する道路の道路情報に含まれる車線数、車線の間隔、交差角度を参照し、道路情報に沿う線形を位置情報群から抽出することができる。道路が複数の車線を含む場合には、各車線に対応する各線形に対して位置情報群の偏差が最も小さくなるように各線形を抽出する、又は各車線に対応する各線形の間に存在する位置情報のプロット数が最も少なくなるように各線形を抽出するといった手法をとることができる。 Also, there are cases where each road constituting the specific intersection S includes two lanes, up and down. In this case, as shown in FIG. 15, two pairs of linear Lx1 and Ly1 and linear Lx2 and Ly2 are extracted as orthogonal linear pairs. The intersection angle (for example, 90 degrees) between the linear Lx1 and Ly1 and the linear Lx2 and Ly2 is known and can be included in the road information. The linear Lx1 and the linear Lx2 along the x-axis direction are parallel, and the interval (for example, 5 m) between the linear Lx1 and the linear Lx2 is known and can be included in the road information. The same applies to the linear Ly1 and the linear Ly2 along the y-axis direction. Furthermore, the number of lanes of each road is known and can be included in the road information. The control device 210 can extract the alignment along the road information from the position information group by referring to the number of lanes, the lane interval, and the intersection angle included in the road information of the roads constituting the specific intersection S. If the road contains multiple lanes, extract each line so that the deviation of the position information group is the smallest for each line corresponding to each lane, or exist between each line corresponding to each lane It is possible to take a method of extracting each line shape so that the number of position information plots is minimized.
 また、道路に車道と歩道が含まれる場合には、位置情報群に車道を移動する端末装置100の位置情報と歩道を移動する端末装置100の位置情報とが含まれるため、道路幅方向に位置情報が分散してしまうため、正確な線形を抽出することが難しい場合がある。このため、本実施形態では、歩行者が携帯する端末装置100Aの位置情報群Aと車載された端末装置100Bの位置情報群Bとを識別して、それぞれの位置情報群A,Bから別々に線形を抽出する。これにより、歩行者、車両、オートバイ、自転車の数(プロット数)にばらつきがある場合においても道路の位置及び特定交差点Sの位置を正確に推測するこができる。歩行者が携帯する端末装置100Aの位置情報群Aと車載された端末装置100Bを識別する手法は特に限定されないが、端末装置100の識別情報に移動体の属性(歩行者、車両、オートバイ、自転車)を対応づけておき、識別情報を交通情報提供サーバ200へ送出することにより、交通情報提供サーバ200に識別させてもよいし、端末装置100が送信する位置情報の履歴から算出される移動速度に基づいて移動体の属性(歩行者、車両、オートバイ、自転車)を交通情報提供サーバ200が識別してもよい。 When the road includes a roadway and a sidewalk, the position information group includes the position information of the terminal device 100 moving on the roadway and the position information of the terminal device 100 moving on the sidewalk. Since information is dispersed, it may be difficult to extract an accurate line. For this reason, in this embodiment, the positional information group A of the terminal device 100A carried by the pedestrian and the positional information group B of the terminal device 100B mounted on the vehicle are identified, and the positional information groups A and B are separately identified. Extract linearity. Thereby, even when there are variations in the number of pedestrians, vehicles, motorcycles, and bicycles (number of plots), the position of the road and the position of the specific intersection S can be accurately estimated. A method for identifying the position information group A of the terminal device 100A carried by the pedestrian and the terminal device 100B mounted on the vehicle is not particularly limited, but the identification information of the terminal device 100 includes the attribute of the moving object (pedestrian, vehicle, motorcycle, bicycle). ) And sending the identification information to the traffic information providing server 200, the traffic information providing server 200 may identify the moving speed calculated from the history of position information transmitted by the terminal device 100. The traffic information providing server 200 may identify the attributes of the moving object (pedestrian, vehicle, motorcycle, bicycle) based on the above.
 位置情報群から抽出された線形の交点は、特定交差点Sの位置に対応する。ステップ214において、本実施形態の交通情報提供サーバ200は、位置情報群から抽出された線形の交点の位置と、予め設定された特定交差点Sの位置とのずれ量から補正量を算出する。 The linear intersection extracted from the position information group corresponds to the position of the specific intersection S. In step 214, the traffic information providing server 200 according to the present embodiment calculates a correction amount from a deviation amount between the position of the linear intersection extracted from the position information group and the position of the specific intersection S set in advance.
 先述したように、位置検出装置30の第2位置検出機能により実際に検出される位置情報は、場所によって誤差が生じることがある。この場合は、実際に計測された位置情報と地図情報M上の位置情報とにずれが生じている。つまり、端末装置100の動作を制御する基準として用いられている特定交差点Sの位置、位置検出エリアTの位置、情報送信エリアPの位置にもずれが生じていることになる。 As described above, the position information actually detected by the second position detection function of the position detection device 30 may have an error depending on the location. In this case, there is a difference between the actually measured position information and the position information on the map information M. That is, the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P, which are used as a reference for controlling the operation of the terminal device 100, are also shifted.
 このため、本実施形態では、実際に計測された位置情報に基づいて、特定交差点Sの位置、位置検出エリアTの位置、情報送信エリアPの位置を補正することにより、実際の位置情報の検出環境に適合した制御を行う。これにより、位置検出エリアT、情報送信エリアPは位置情報の検出環境に即した位置に補正されるので、位置検出に誤差が生じても、本来、位置検出をさせたいエリアで端末装置100に位置検出を実行させ、位置情報を送信させたいエリアで端末装置100に送信処理を実行させることができる。すなわち、位置検出が不要なエリアで端末装置100に位置検出を実行させること、位置情報の送信が不要なエリアで端末装置100に送信処理を実行させることを抑止できる。この結果、端末装置100の電力消費量を低減させることができる。 For this reason, in the present embodiment, actual position information is detected by correcting the position of the specific intersection S, the position of the position detection area T, and the position of the information transmission area P based on the actually measured position information. Perform control suitable for the environment. As a result, the position detection area T and the information transmission area P are corrected to positions that match the detection environment of the position information. Therefore, even if an error occurs in position detection, the terminal device 100 is originally set in the area where position detection is desired. It is possible to cause the terminal device 100 to perform transmission processing in an area where position detection is to be performed and position information is to be transmitted. That is, it is possible to prevent the terminal device 100 from performing position detection in an area where position detection is unnecessary, and to cause the terminal device 100 to perform transmission processing in an area where position information transmission is unnecessary. As a result, the power consumption of the terminal device 100 can be reduced.
 ステップ215において、本実施形態の交通情報提供サーバ200は、算出された補正量(ずれ量)に基づいて、特定交差点の位置、位置検出エリアの位置、情報送信エリアの位置を補正させる補正指令を生成し、端末装置100へ送出する。 In step 215, the traffic information providing server 200 according to the present embodiment issues a correction command for correcting the position of the specific intersection, the position of the position detection area, and the position of the information transmission area based on the calculated correction amount (deviation amount). It is generated and sent to the terminal device 100.
 ステップ216において、本実施形態の交通情報提供サーバ200は、算出された補正量(ずれ量)に基づいて、自身が生成した交通情報を補正する。これにより、位置情報の誤差の影響を排除して、正確な交通情報を提供することができる。 In step 216, the traffic information providing server 200 of the present embodiment corrects the traffic information generated by itself based on the calculated correction amount (deviation amount). As a result, it is possible to provide accurate traffic information by eliminating the influence of position information errors.
 ステップ217において、本実施形態の交通情報提供サーバ200は、交通情報を記憶、提示、送出その他の出力処理を実行する。 In Step 217, the traffic information providing server 200 according to the present embodiment executes the output process of storing, presenting, sending, and other traffic information.
 最後に、再度図3に戻り、ステップ109において、端末装置100は、補正後の交通情報・特定交差点の位置、エリア情報(位置検出エリアTの位置、情報送信エリアPの位置を含む)を交通情報提供サーバ200から受信する。端末装置100は、スピーカ・ディスプレイを介して補正された交通情報をユーザに提示するとともに、参照する特定交差点の位置及びエリア情報(位置検出エリアTの位置、情報送信エリアPの位置を含む)の記憶を更新する。 Finally, returning to FIG. 3 again, in step 109, the terminal device 100 uses the corrected traffic information / specific intersection position and area information (including the position of the position detection area T and the position of the information transmission area P) as traffic. Received from the information providing server 200. The terminal device 100 presents the corrected traffic information to the user via the speaker / display, and the location and area information of the specific intersection to be referred to (including the location of the location detection area T and the location of the information transmission area P). Update memory.
 本実施形態は、以上のように構成され、動作するので以下の効果を奏する。 Since this embodiment is configured and operates as described above, the following effects can be obtained.
 (1-1)本実施形態の交通情報提供システム1000によれば、通信状況に基づいて端末装置100が位置検出エリアT以内に存在するか否かを判断し、位置検出エリアT以内に存在する端末装置100の位置検出装置30を起動し、さらに、情報送信エリアP以内に存在する端末装置100の通信装置20を起動させて位置情報を送信させるので、位置検出装置30を常時起動させていなくても、特定交差点Sの近傍に存在する端末装置100の位置情報を収集することができる。この結果、任意の特定交差点S近傍の道路の交通情報を提供する場合において、移動体側の端末装置の電力消費量を低減させることができる。 (1-1) According to the traffic information providing system 1000 of the present embodiment, it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. Since the position detecting device 30 of the terminal device 100 is activated and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, the position detecting device 30 is not always activated. However, it is possible to collect the position information of the terminal device 100 existing in the vicinity of the specific intersection S. As a result, when providing traffic information on a road in the vicinity of an arbitrary specific intersection S, the power consumption of the mobile terminal device can be reduced.
 (1-2)本実施形態の交通情報提供システム1000によれば、特定交差点との距離が短いほど、位置検出装置30の位置情報を検出させる頻度を高く設定する。本制御によれば、位置検出エリア内に進入し、特定交差点に接近するにつれて高い頻度で位置検出を実行するので、交通情報として重要な特定交差点近傍において詳細な位置情報を取得することができ、交通情報としてあまり重要でない特定交差点から離れた場所において大まかな位置情報を取得することができる。これにより、交通情報としてあまり重要でない特定交差点から離れた場所において位置情報を取得する動作を抑制することができるので、端末装置100の電力消費量を抑制することができる。 (1-2) According to the traffic information providing system 1000 of this embodiment, the frequency of detecting the position information of the position detection device 30 is set higher as the distance from the specific intersection is shorter. According to this control, since the position detection is performed with high frequency as the vehicle enters the position detection area and approaches the specific intersection, detailed position information can be obtained in the vicinity of the specific intersection important as traffic information. Rough position information can be acquired at a location away from a specific intersection that is not very important as traffic information. Thereby, since the operation | movement which acquires a positional information in the place away from the specific intersection which is not so important as traffic information can be suppressed, the power consumption of the terminal device 100 can be suppressed.
 (1-3)本実施形態では、位置検出エリアを、特定交差点を含む携帯電話用の通信回線網に設けられた基地局の通信エリア、特定交差点を含む無線ローカルエリアネットワークの通信回線網に設けられた基地局の通信エリア、及び特定交差点を含む高度道路交通システムの通信回線網に設けられた基地局の通信エリアの何れか一つ以上に基づいて設定するので、端末装置100が位置検出エリア内に位置するか否かを、端末装置100が備える通信装置20による通信確立を確認する機能を用いて判断することができる。この結果、新たな処理負荷を生じさせることなく、位置検出装置30を起動させるタイミングを判断することができる。 (1-3) In the present embodiment, the position detection area is provided in the communication area of the base station provided in the communication network for mobile phones including the specific intersection, and in the communication network of the wireless local area network including the specific intersection. Is set based on at least one of the communication area of the base station provided and the communication area of the base station provided in the communication network of the intelligent transportation system including the specific intersection. It is possible to determine whether the terminal device 100 is located using a function of confirming communication establishment by the communication device 20 included in the terminal device 100. As a result, it is possible to determine the timing for starting the position detection device 30 without causing a new processing load.
 (1-4)本実施形態の交通情報提供サーバ200は、端末装置100が送信した位置情報に基づいて交通情報を生成し、生成した交通情報を端末装置100へ送信するので、交通情報により特定交差点S周囲を通行する者の注意を喚起することができる。 (1-4) The traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
 (1-5)端末装置100には、携帯可能な携帯型の端末装置100Aと、車両に搭載された車載型の端末装置100Bと、路側に設けられた設置型の端末装置300とを含むので、特定交差点Sを通行する車両、歩行者の位置情報を収集することができ、特定交差点Sを通行する車両、歩行者に生成された交通情報を配信することができるので、特定交差点S周囲の交通情報を提供することができる。 (1-5) Since the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B that is mounted on a vehicle, and a stationary terminal device 300 that is provided on the roadside. The position information of vehicles and pedestrians passing through the specific intersection S can be collected, and the traffic information generated by the vehicles and pedestrians passing through the specific intersection S can be distributed. Traffic information can be provided.
 (1-6)本発明に係る交通情報提供方法を使用した場合も、上記発明と同様の作用及び効果を奏する。 (1-6) Even when the traffic information providing method according to the present invention is used, the same operations and effects as the above-described invention can be obtained.
 (2-1)本実施形態の交通情報提供システム1000によれば、通信状況に基づいて端末装置100が位置検出エリアT以内に存在するか否かを判断し、位置検出エリアT以内に存在する端末装置100の位置検出装置30を起動し、さらに、情報送信エリアP以内に存在する端末装置100の通信装置20を起動させて位置情報を送信させるので、位置検出装置30及び通信装置20を常時起動させていなくても、特定交差点Sの近傍に存在する端末装置100の位置情報を収集することができる。しかも、通信装置20を常時動作させなくても、特定交差点の近傍に存在する端末装置100の位置情報を適切な周期(頻度)で交通情報提供サーバ200へ送出することができる。この結果、任意の特定交差点近傍の道路の交通情報を提供する場合において、移動体側の端末装置の電力消費量を低減させることができる。 (2-1) According to the traffic information providing system 1000 of the present embodiment, it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. Since the position detection device 30 of the terminal device 100 is activated and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, the position detection device 30 and the communication device 20 are always connected. Even if it is not activated, the position information of the terminal device 100 existing in the vicinity of the specific intersection S can be collected. Moreover, the position information of the terminal device 100 existing in the vicinity of the specific intersection can be sent to the traffic information providing server 200 at an appropriate cycle (frequency) without always operating the communication device 20. As a result, when providing traffic information on a road near an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
 (2-2)本実施形態の交通情報提供システム1000によれば、特定交差点Sに対する端末装置100の存在方向θを算出し、存在方向θと特定交差点Sを構成する道路の延在方向との成す角度Δθが所定値以上である場合には、位置情報を交通情報提供サーバ200に送信する周期を長くする(送信する頻度を低くする)ので、特定交差点Sの交通には関係しない、道路沿いの店舗、自宅、駐車場に存在する端末装置100の位置情報が交通情報提供サーバ200に送信される頻度を低くすることができる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の送信を抑制できるので、端末装置100の電力消費量を低減することができる。 (2-2) According to the traffic information providing system 1000 of the present embodiment, the existence direction θ of the terminal device 100 with respect to the specific intersection S is calculated, and the existence direction θ and the extension direction of the roads constituting the specific intersection S are calculated. When the formed angle Δθ is greater than or equal to a predetermined value, the cycle of transmitting the position information to the traffic information providing server 200 is lengthened (the frequency of transmission is reduced). The frequency at which the location information of the terminal device 100 existing in the store, home, or parking lot is transmitted to the traffic information providing server 200 can be reduced. As a result, while useful position information is selectively collected, transmission of unnecessary position information can be suppressed, so that power consumption of the terminal device 100 can be reduced.
 (2-3)本実施形態の交通情報提供システム1000によれば、特定交差点から端末装置100の存在位置までの距離が長いほど、位置情報を交通情報提供サーバ200に送信する周期を長くする(送信する頻度を低くする)。つまり、特定交差点Sから遠い位置においては、低い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させ、特定交差点S近傍においては高い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させるので、有用な位置情報を選択的に送信させる一方で、不要な位置情報の送信を抑制できるので、端末装置100の電力消費量を低減することができる。 (2-3) According to the traffic information providing system 1000 of the present embodiment, the longer the distance from the specific intersection to the location where the terminal device 100 is, the longer the period for transmitting the position information to the traffic information providing server 200 ( Send less frequently). That is, at a position far from the specific intersection S, the position information of each mobile unit (terminal device 100) is transmitted to the traffic information providing server 200 at a low frequency, and each mobile unit (terminal device) at a high frequency near the specific intersection S. 100) is transmitted to the traffic information providing server 200, so that useful position information can be selectively transmitted, while transmission of unnecessary position information can be suppressed, thereby reducing the power consumption of the terminal device 100. be able to.
 (2-4)本実施形態の交通情報提供システム1000によれば、特定交差点に接近する端末装置100の移動速度が高いほど、位置情報を交通情報提供サーバ200に送信する周期を短くする(送信する頻度を高くする)ので、移動体が高い速度で特定交差点Sに接近し、互いの位置情報を共有することが望ましい状況においては、制御装置10は、高い頻度で各移動体(端末装置100)の位置情報を交通情報提供サーバ200へ送信させる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の収集を抑制できるので、端末装置100の電力消費量を低減することができる。 (2-4) According to the traffic information providing system 1000 of the present embodiment, the higher the moving speed of the terminal device 100 approaching the specific intersection, the shorter the cycle for transmitting the location information to the traffic information providing server 200 (transmission) Therefore, in a situation where it is desirable for the mobile body to approach the specific intersection S at a high speed and to share the position information of each other, the control device 10 frequently uses each mobile body (the terminal device 100). ) Position information is transmitted to the traffic information providing server 200. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
 (2-5)本実施形態の交通情報提供システム1000によれば、端末装置100の移動速度が所定値未満乃至ゼロである時間が所定時間以上である場合には、位置情報を交通情報提供サーバ200に送信する処理を中止させるので、駐車中の移動体、店舗利用中の人間(歩行者)のように、特定交差点Sの交通に関与しない移動体の位置情報が交通情報提供サーバ200へ送信されることを抑制することができる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の収集を抑制できるので、端末装置100の電力消費量を低減することができる。 (2-5) According to the traffic information providing system 1000 of the present embodiment, when the time during which the moving speed of the terminal device 100 is less than a predetermined value or zero is longer than a predetermined time, the position information is transmitted to the traffic information providing server. Since the processing to be transmitted to the mobile station 200 is stopped, the position information of the mobile body that is not involved in the traffic at the specific intersection S, such as a parked mobile body or a person using a store (pedestrian), is transmitted to the traffic information providing server 200. It can be suppressed. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
 (2-6)本実施形態の交通情報提供システム1000によれば、端末装置100が特定交差点Sから離隔する場合には、位置情報を交通情報提供サーバ200に送信する処理を中止させるので、特定交差点Sから離れていく移動体のように、特定交差点Sの交通に関与しない移動体の位置情報が交通情報提供サーバ200へ送信されることを抑制することができる。この結果、有用な位置情報を選択的に収集する一方で、不要な位置情報の収集を抑制できるので、端末装置100の電力消費量を低減することができる。 (2-6) According to the traffic information providing system 1000 of this embodiment, when the terminal device 100 is separated from the specific intersection S, the process of transmitting the location information to the traffic information providing server 200 is stopped. It is possible to suppress transmission of position information of a moving body that is not involved in traffic at the specific intersection S to the traffic information providing server 200 like a moving body that is moving away from the intersection S. As a result, while collecting useful position information selectively, it is possible to suppress the collection of unnecessary position information, so that the power consumption of the terminal device 100 can be reduced.
 (2-7)本実施形態の交通情報提供サーバ200は、端末装置100が送信した位置情報に基づいて交通情報を生成し、生成した交通情報を端末装置100へ送信するので、交通情報により特定交差点S周囲を通行する者の注意を喚起することができる。 (2-7) The traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
 (2-8)端末装置100には、携帯可能な携帯型の端末装置100Aと、車両に搭載された車載型の端末装置100Bと、路側に設けられた設置型の端末装置300とを含むので、特定交差点Sを通行する車両、歩行者の位置情報を収集することができ、特定交差点Sを通行する車両、歩行者に生成された交通情報を漏れなく配信することができるので、特定交差点S周囲の交通情報を提供することができる。 (2-8) Since the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B mounted on the vehicle, and an installation-type terminal device 300 provided on the roadside. Since it is possible to collect the position information of vehicles and pedestrians passing through the specific intersection S, and to distribute the traffic information generated to vehicles and pedestrians passing through the specific intersection S without any omission, the specific intersection S It is possible to provide surrounding traffic information.
 (3-1)本実施形態の交通情報提供システム1000によれば、通信状況に基づいて端末装置100が位置検出エリアT以内に存在するか否かを判断し、位置検出エリアT以内に存在する端末装置100の位置検出装置30を起動し、さらに、情報送信エリアP以内に存在する端末装置100の通信装置20を起動させて位置情報を送信させ、端末装置100の状態を判断し、判断された端末装置100の状態に基づいて位置検出エリアT及び情報送信エリアPを設定するので、位置検出手段を常時動作させなくても、端末装置の状態に応じた適切なエリアに存在する端末装置の位置情報を収集することができる。この結果、任意の特定交差点近傍の道路の交通情報を提供する場合において、移動体側の端末装置の電力消費量を低減させることができる。 (3-1) According to the traffic information providing system 1000 of the present embodiment, it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. The position detection device 30 of the terminal device 100 is activated, and further, the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, and the state of the terminal device 100 is determined and determined. Since the position detection area T and the information transmission area P are set based on the state of the terminal device 100, the terminal device existing in an appropriate area according to the state of the terminal device without always operating the position detection means. Location information can be collected. As a result, when providing traffic information on a road near an arbitrary specific intersection, the power consumption of the mobile terminal device can be reduced.
 (3-2)本実施形態の交通情報提供システム1000によれば、端末装置100の移動速度が速いほど、位置検出エリアT及び情報送信エリアPの面積が大きくなるように設定するので、速度の速い移動体は特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないということや、速度の遅い移動体は検出される位置情報に変化が無く、重複した位置情報が交通情報提供サーバ200にアップされてしまうということを防止することができる。このように、必要な場面で位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (3-2) According to the traffic information providing system 1000 of the present embodiment, the area of the position detection area T and the information transmission area P is set to increase as the moving speed of the terminal device 100 increases. Even though a fast moving body has passed the vicinity of the specific intersection S, the position information is not uploaded to the traffic information providing server 200, and a moving body having a low speed has no change in the detected position information. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that power consumption of the terminal device 100 can be reduced.
 (3-3)本実施形態の交通情報提供サーバ200は、移動体が歩行者である場合には最も小さい(特定交差点Sに接近した)位置検出エリアT及び情報送信エリアPを設定し、移動体が自転車である場合には中程度の位置検出エリアT及び情報送信エリアPを設定し、移動体がオートバイ又は自動車である場合には最も広い位置検出エリアT及び情報送信エリアPを設定するので、相対的に移動速度の遅い歩行者については重複した位置情報が交通情報提供サーバ200にアップされてしまうことを防止し、移動速度の速いオートバイや自動車については特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないということを防止することができる。これにより、必要な場面で位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (3-3) The traffic information providing server 200 of this embodiment sets the smallest position detection area T and information transmission area P (approaching the specific intersection S) when the moving body is a pedestrian, and moves When the body is a bicycle, a medium position detection area T and information transmission area P are set. When the mobile body is a motorcycle or a car, the widest position detection area T and information transmission area P are set. For pedestrians with relatively slow moving speeds, it is possible to prevent duplicate position information from being uploaded to the traffic information providing server 200, and for motorcycles and cars with high moving speeds to pass near the specific intersection S. It is possible to prevent the location information from being uploaded to the traffic information providing server 200. Thereby, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that the power consumption of the terminal device 100 can be reduced.
 (3-4)本実施形態の交通情報提供サーバ200は、端末装置100がユーザから受け付ける入力情報から、端末装置100を移動させる移動体が歩行者、自転車、オートバイ、若しくは自動車の何れの物体であるか又は歩行者、自転車、オートバイ、及び自動車以外の物体であるかの移動体の属性を判断することにより、正確な属性に応じた位置検出エリアT及び情報送信エリアPを設定することができるので、上記効果を奏することができる。 (3-4) The traffic information providing server 200 according to the present embodiment is based on input information received by the terminal device 100 from the user, and the moving body that moves the terminal device 100 is any object such as a pedestrian, bicycle, motorcycle, or automobile. The position detection area T and the information transmission area P according to the exact attributes can be set by determining the attributes of the moving object such as being a pedestrian, bicycle, motorcycle, or an object other than an automobile. Therefore, the above effects can be achieved.
 (3-5)本実施形態の交通情報提供サーバ200は、端末装置100が送信した位置情報に基づいて交通情報を生成し、生成した交通情報を端末装置100へ送信するので、交通情報により特定交差点S周囲を通行する者の注意を喚起することができる。 (3-5) The traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
 (3-6)端末装置100には、携帯可能な携帯型の端末装置100Aと、車両に搭載された車載型の端末装置100Bと、路側に設けられた設置型の端末装置300とを含むので、特定交差点Sを通行する車両、歩行者の位置情報を漏れなく収集することができ、特定交差点Sを通行する車両、歩行者に生成された交通情報を漏れなく配信することができるので、特定交差点S周囲の交通情報を提供することができる。 (3-6) Since the terminal device 100 includes the portable terminal device 100A that is portable, the in-vehicle terminal device 100B mounted on the vehicle, and the installation type terminal device 300 provided on the roadside. The vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
 (4-1)本実施形態の交通情報提供システム1000によれば、通信状況に基づいて端末装置100が位置検出エリアT以内に存在するか否かを判断し、位置検出エリアT以内に存在する端末装置100の位置検出装置30を起動し、さらに、情報送信エリアP以内に存在する端末装置100の通信装置20を起動させて位置情報を送信させ、端末装置100が移動する道路の属性を判断し、判断された道路の属性に基づいて位置検出エリアT及び情報送信エリアPを設定するので、端末装置100が移動する道路の属性に応じて位置検出エリアT及び情報送信エリアPを設定するので、位置検出装置30を常時起動させなくても、道路の属性に応じた適切なエリアに存在する端末装置100の位置情報を収集することができる。 (4-1) According to the traffic information providing system 1000 of the present embodiment, it is determined whether the terminal device 100 exists within the position detection area T based on the communication status, and exists within the position detection area T. The position detection device 30 of the terminal device 100 is activated, and the communication device 20 of the terminal device 100 existing within the information transmission area P is activated to transmit the position information, and the attribute of the road on which the terminal device 100 moves is determined. Since the position detection area T and the information transmission area P are set based on the determined road attribute, the position detection area T and the information transmission area P are set according to the attribute of the road on which the terminal device 100 moves. Even if the position detection device 30 is not always activated, the position information of the terminal device 100 existing in an appropriate area corresponding to the attribute of the road can be collected.
 (4-2)本実施形態の交通情報提供システム1000によれば、端末装置100の移動する道路の制限速度が速いほど、位置検出エリアT及び情報送信エリアPの面積が大きくなるように設定するので、移動体の移動速度が速いために特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないということや、移動体の移動速度が遅いために重複した位置情報が交通情報提供サーバ200にアップされてしまうということを防止することができる。このように、道路の制限速度に起因する道路の状況に適した位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (4-2) According to the traffic information providing system 1000 of the present embodiment, the area of the position detection area T and the information transmission area P is set larger as the speed limit of the road on which the terminal device 100 moves is faster. Therefore, since the moving speed of the moving body is high, the position information is not uploaded to the traffic information providing server 200 even though the vicinity of the specific intersection S is passed, and the overlapping position information is generated because the moving speed of the moving body is low. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission suitable for the road conditions caused by the road speed limit can be performed, and position detection and position information transmission are not performed in unnecessary scenes. Consumption can be reduced.
 (4-3)本実施形態の交通情報提供システム1000によれば、端末装置100の移動する道路の路幅が大きいほど、位置検出エリアT及び情報送信エリアPの面積が大きくなるように設定する。道路の路幅が大きい(広い)ほど、その道路を走行する移動体の速度が高くなる傾向がある。本発実施形態によれば、道路の路幅に起因する交通状況を考慮して位置検出及び位置情報の送出を行うことができるので、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (4-3) According to the traffic information providing system 1000 of the present embodiment, the area of the position detection area T and the information transmission area P is set to be larger as the road width of the road on which the terminal device 100 moves is larger. . As the road width is larger (wider), the speed of the moving object traveling on the road tends to increase. According to the present embodiment, since position detection and position information transmission can be performed in consideration of traffic conditions caused by the road width, position detection and position information transmission are not performed in unnecessary scenes. The power consumption of the terminal device 100 can be reduced.
 (4-4)本実施形態の交通情報提供システム1000によれば、端末装置100の移動する歩道の路幅が大きいほど、位置検出エリアT及び情報送信エリアPの面積が大きくなるように設定する。歩道の路幅が大きい(広い)ほど、その歩道又はその歩道に沿う道路の交通量が多く、走行する移動体の数が高くなる傾向がある。本発実施形態によれば、歩道の路幅に起因する交通状況を考慮して位置検出及び位置情報の送出を行うことができるので、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (4-4) According to the traffic information providing system 1000 of the present embodiment, the area of the position detection area T and the information transmission area P is set larger as the width of the sidewalk on which the terminal device 100 moves is larger. . As the width of the sidewalk is larger (wider), the traffic volume on the sidewalk or the road along the sidewalk tends to increase, and the number of moving bodies that run tends to increase. According to the present embodiment, since position detection and position information transmission can be performed in consideration of traffic conditions caused by the width of the sidewalk, position detection and position information transmission are not performed in unnecessary scenes. The power consumption of the terminal device 100 can be reduced.
 (4-5)本実施形態の交通情報提供システム1000によれば、端末装置100の移動する道路の形状に沿う形状の位置検出エリアT及び情報送信エリアPを設定する。これにより、道路が存在しない部分が含まれないように位置検出エリアT及び情報送信エリアPを設定することができるので、交通情報としての位置情報が不要な領域で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (4-5) According to the traffic information providing system 1000 of the present embodiment, the position detection area T and the information transmission area P having a shape along the shape of the road on which the terminal device 100 moves are set. As a result, the position detection area T and the information transmission area P can be set so as not to include a portion where no road exists, so position detection and position information transmission are performed in an area where position information as traffic information is unnecessary. Therefore, the power consumption of the terminal device 100 can be reduced.
 (4-6)本実施形態の交通情報提供システム1000によれば、端末装置100は、各道路の高さ情報に基づいて、道路の属性を判断するので、立体交差道路のように緯度経度は共通するが高さの異なる道路を別の道路として識別することができる。これにより、各道路の属性を正確に判断することができる。 (4-6) According to the traffic information providing system 1000 of the present embodiment, the terminal device 100 determines road attributes based on the height information of each road. A road that is common but has a different height can be identified as another road. Thereby, the attribute of each road can be judged correctly.
 (4-7)本実施形態の交通情報提供システム1000によれば、端末装置100の移動速度が速いほど、位置検出エリアT及び情報送信エリアPの面積が大きくなるように設定するので、速度の速い移動体は特定交差点S近傍を通過したのに、位置情報が交通情報提供サーバ200にアップされないということや、速度の遅い移動体は検出される位置情報に変化が無く、重複した位置情報が交通情報提供サーバ200にアップされてしまうということを防止することができる。このように、必要な場面で位置検出及び位置情報の送出を行うことができ、不要な場面で位置検出及び位置情報送出を行わないので、端末装置100の電力消費量を低減させることができる。 (4-7) According to the traffic information providing system 1000 of the present embodiment, the area of the position detection area T and the information transmission area P is set to increase as the moving speed of the terminal device 100 increases. Even though a fast moving body has passed the vicinity of the specific intersection S, the position information is not uploaded to the traffic information providing server 200, and a moving body having a low speed has no change in the detected position information. It is possible to prevent the traffic information providing server 200 from being uploaded. As described above, position detection and position information transmission can be performed in a necessary scene, and position detection and position information transmission are not performed in an unnecessary scene, so that power consumption of the terminal device 100 can be reduced.
 (4-8)本実施形態の交通情報提供サーバ200は、端末装置100が送信した位置情報に基づいて交通情報を生成し、生成した交通情報を端末装置100へ送信するので、交通情報により特定交差点S周囲を通行する者の注意を喚起することができる。 (4-8) The traffic information providing server 200 of the present embodiment generates traffic information based on the position information transmitted by the terminal device 100, and transmits the generated traffic information to the terminal device 100. The attention of those who pass around the intersection S can be alerted.
 (4-9)端末装置100には、携帯可能な携帯型の端末装置100Aと、車両に搭載された車載型の端末装置100Bと、路側に設けられた設置型の端末装置300とを含むので、特定交差点Sを通行する車両、歩行者の位置情報を漏れなく収集することができ、特定交差点Sを通行する車両、歩行者に生成された交通情報を漏れなく配信することができるので、特定交差点S周囲の交通情報を提供することができる。 (4-9) Since the terminal device 100 includes a portable terminal device 100A that is portable, an in-vehicle terminal device 100B mounted on the vehicle, and an installation-type terminal device 300 provided on the roadside. The vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
 (4-10)本発明に係る交通情報提供方法を使用した場合も、上記発明と同様の作用及び効果を奏する。 (4-10) Even when the traffic information providing method according to the present invention is used, the same operations and effects as the above-described invention can be obtained.
 (5-1)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が、地図情報上にプロットされた位置情報群に基づいて算出された道路の位置と地図情報上に定義された道路の位置とを比較して位置情報の補正量を算出し、補正量に基づいて補正した特定交差点の位置、位置検出エリアの位置、及び情報送信エリアの位置を含む交通情報を生成する。このため、種々の計測条件に起因して、実測される位置情報に誤差が生じる場合であっても、計測誤差を見込んだ(計測誤差を考慮した)特定交差点の位置、位置検出エリアの位置、及び情報送信エリアの位置を算出し、これらを含む交通情報を端末装置100へ送信するので、端末装置100は計測誤差を見込んだ(計測誤差を考慮した)特定交差点の位置、位置検出エリアの位置、及び情報送信エリアの位置に基づいて位置情報の検出及び位置情報の送信を実行することができる。つまり、特定交差点S近傍の交通情報にとって有用ではない位置情報が検出及び送出されることを抑制することができる。この結果、端末装置100の電力消費量を低減することができる。 (5-1) In the traffic information providing system 1000 of this embodiment, the traffic information providing server 200 is defined on the road information and the map information calculated based on the position information group plotted on the map information. A correction amount of position information is calculated by comparing with the position of the road, and traffic information including the position of the specific intersection corrected based on the correction amount, the position of the position detection area, and the position of the information transmission area is generated. For this reason, even if an error occurs in the actually measured position information due to various measurement conditions, the position of the specific intersection where the measurement error is expected (considering the measurement error), the position of the position detection area, And the position of the information transmission area is calculated, and the traffic information including these is transmitted to the terminal device 100. Therefore, the terminal device 100 anticipates the measurement error (considering the measurement error), the position of the specific intersection, and the position of the position detection area And, detection of position information and transmission of position information can be executed based on the position of the information transmission area. That is, it is possible to suppress detection and transmission of position information that is not useful for traffic information in the vicinity of the specific intersection S. As a result, the power consumption of the terminal device 100 can be reduced.
 (5-2)本実施形態の交通情報提供システム1000は、端末装置100が、交通情報を取得した場合に、補正後の(計測誤差を見込んだ)位置検出エリアTの位置に基づいて位置検出装置30に位置情報を検出させるとともに、補正後の(計測誤差を見込んだ)情報送信エリアPの位置に基づいて通信装置20に位置情報を送信させるので、特定交差点S近傍の交通情報にとって有用ではない位置情報が検出及び送出されることを抑制することができる。この結果、端末装置100の電力消費量を低減することができる。 (5-2) The traffic information providing system 1000 according to the present embodiment detects a position based on the position of the position detection area T after correction (expecting a measurement error) when the terminal device 100 acquires traffic information. Since the position information is detected by the device 30 and the position information is transmitted to the communication device 20 based on the corrected position of the information transmission area P (allowing for measurement error), it is useful for traffic information in the vicinity of the specific intersection S. It is possible to suppress detection and transmission of no position information. As a result, the power consumption of the terminal device 100 can be reduced.
 (5-3)本実施形態の交通情報提供システム1000は、端末装置100が、地図情報M上にプロットされた位置情報から線形を抽出し、抽出した線形から道路の位置を算出し、算出された道路の交点の位置と、地図情報M上に定義された特定交差点Sの位置とのずれ量に基づいて補正量を算出するので、実際に計測された位置情報にずれが生じている場合であっても、測定誤差を見込んだ特定交差点Sを算出し、位置検出エリアT及び情報送信エリアPを設定することができる。これにより、実測される位置情報に誤差が含まれていても、特定交差点S近傍の端末装置100を正確に選択することができる。この結果、特定交差点S近傍以外の端末装置100に、無駄に位置情報の検出・送信を行わせることがないので、端末装置100の電力消費量を低減することができる。 (5-3) In the traffic information providing system 1000 according to the present embodiment, the terminal device 100 extracts a line shape from position information plotted on the map information M, calculates a road position from the extracted line shape, and is calculated. Since the correction amount is calculated based on the amount of deviation between the position of the intersection of the road and the position of the specific intersection S defined on the map information M, there is a deviation in the actually measured position information. Even if it exists, the specific intersection S which anticipated the measurement error can be calculated, and the position detection area T and the information transmission area P can be set. Thereby, even if an error is included in the actually measured position information, the terminal device 100 near the specific intersection S can be accurately selected. As a result, since the terminal device 100 other than the vicinity of the specific intersection S is not caused to detect and transmit position information unnecessarily, the power consumption of the terminal device 100 can be reduced.
 (5-4)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が地図情報M上にプロットされた位置情報のうち、所定値以上の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる車道の位置を算出するので、車道の位置に基づいて、位置情報の補正量を正確に算出することができる。道路における車道を識別することにより、交通情報における移動体の属性、注意を向ける場所、移動体の動きを具体的にすることができ、「車両が(車道を)特定交差点Sに向かって移動中」といった具体的な交通情報を端末装置100に伝えることができる。 (5-4) The traffic information providing system 1000 according to the present embodiment includes a position information group associated with a moving speed greater than or equal to a predetermined value among the position information plotted on the map information M by the traffic information providing server 200. Based on this, the position of the roadway included in the road is calculated, so that the correction amount of the position information can be accurately calculated based on the position of the roadway. By identifying the roadway on the road, the attributes of the moving body in the traffic information, the place where attention is paid, and the movement of the moving body can be made concrete. “The vehicle is moving toward the specific intersection S (on the roadway) ”Can be transmitted to the terminal device 100.
 (5-5)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が地図情報M上にプロットされた位置情報のうち、所定値未満の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる歩道の位置を算出するので、歩道の位置に基づいて、位置情報の補正量を正確に算出することができる。道路における歩道を識別することにより、交通情報における移動体の属性、注意を向ける場所、移動体の動きを具体的にすることができ、「歩行者が(歩道を)特定交差点Sに向かって移動中」といった具体的な交通情報を端末装置100に伝えることができる。 (5-5) The traffic information providing system 1000 according to the present embodiment includes a position information group associated with a moving speed less than a predetermined value among the position information plotted by the traffic information providing server 200 on the map information M. Based on the position of the sidewalk included in the road, the correction amount of the position information can be accurately calculated based on the position of the sidewalk. By identifying the sidewalk on the road, the attributes of the moving body in the traffic information, the place to pay attention to, and the movement of the moving body can be made concrete. “Pedestrians move (to the sidewalk) toward the specific intersection S Specific traffic information such as “medium” can be transmitted to the terminal device 100.
 (5-6)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が地図情報M上にプロットされた位置情報に基づいて、互いに略平行である線分であって、当該線分の間にプロットされた位置情報の数が最も少なくなるように抽出された線分の位置を、道路に含まれる複数の車線の位置として算出し、この車線の位置に基づいて補正量を算出するので、道路に複数の車線が含まれる場合であっても、端末装置100の位置情報に基づいて特定交差点Sの位置を抽出し、正確な交通情報を生成することができる。 (5-6) The traffic information providing system 1000 according to this embodiment includes line segments that are substantially parallel to each other on the basis of the position information plotted on the map information M by the traffic information providing server 200. The position of the line segment extracted so as to minimize the number of position information plotted during the period is calculated as the positions of a plurality of lanes included in the road, and the correction amount is calculated based on the positions of the lanes. Therefore, even when the road includes a plurality of lanes, the position of the specific intersection S can be extracted based on the position information of the terminal device 100, and accurate traffic information can be generated.
 (5-7)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が地図情報M上にプロットされた位置情報のうち偏差が所定値未満の位置情報群に基づいて、道路に含まれる複数の車線の位置を算出し、この車線の位置に基づいて補正量を算出するので、道路に複数の車線が含まれる場合であっても、端末装置100の位置情報に基づいて特定交差点Sの位置を抽出し、正確な交通情報を生成することができる。 (5-7) The traffic information providing system 1000 according to the present embodiment includes the road information based on the position information group whose deviation is less than a predetermined value among the position information plotted on the map information M by the traffic information providing server 200. The position of the plurality of lanes is calculated, and the correction amount is calculated based on the position of the lane. Therefore, even when the road includes a plurality of lanes, the specific intersection S based on the position information of the terminal device 100 is calculated. Can be extracted and accurate traffic information can be generated.
 (5-8)本実施形態の交通情報提供システム1000は、交通情報提供サーバ200が地図情報M上にプロットされた位置情報のうち、特定交差点S内にプロットされた位置情報以外の位置情報群に基づいて道路の位置を算出するので、特定交差点Sを右左折する端末装置100の位置情報を除外した位置情報に基づいて道路の位置を算出するので、正確な道路の位置及び正確な特定交差点Sの位置を求めることができる。この結果、正確な交通情報を生成することができる。
ことを特
(5-8) The traffic information providing system 1000 according to this embodiment includes a position information group other than the position information plotted in the specific intersection S among the position information plotted on the map information M by the traffic information providing server 200. Since the position of the road is calculated based on the position information of the terminal device 100 that turns right and left at the specific intersection S, the position of the road is calculated based on the position information excluding the position information. The position of S can be determined. As a result, accurate traffic information can be generated.
Specially
 (5-9)端末装置100には、携帯可能な携帯型の端末装置100Aと、車両に搭載された車載型の端末装置100Bと、路側に設けられた設置型の端末装置300とを含むので、特定交差点Sを通行する車両、歩行者の位置情報を漏れなく収集することができ、特定交差点Sを通行する車両、歩行者に生成された交通情報を漏れなく配信することができるので、特定交差点S周囲の交通情報を提供することができる。 (5-9) Since the terminal device 100 includes the portable terminal device 100A that is portable, the in-vehicle terminal device 100B mounted on the vehicle, and the installation-type terminal device 300 provided on the roadside. The vehicle and pedestrian location information passing through the specific intersection S can be collected without omission, and the traffic information generated by the vehicle and pedestrian passing through the specific intersection S can be distributed without omission. Traffic information around the intersection S can be provided.
 (5-10)本発明に係る交通情報提供方法を使用した場合も、上記発明と同様の作用及び効果を奏する。 (5-10) Even when the traffic information providing method according to the present invention is used, the same operations and effects as the above-described invention are exhibited.
 なお、以上説明した実施形態は、本発明の理解を容易にするために記載されたものであって、本発明を限定するために記載されたものではない。したがって、上記の実施形態に開示された各要素は、本発明の技術的範囲に属する全ての設計変更や均等物をも含む趣旨である。 The embodiment described above is described for easy understanding of the present invention, and is not described for limiting the present invention. Therefore, each element disclosed in the above embodiment is intended to include all design changes and equivalents belonging to the technical scope of the present invention.
 すなわち、本明細書では、本発明に係る端末装置とサーバとを備える交通情報提供システムの一態様として、携帯型の端末装置100A、車載の端末装置100B、設置型の端末装置300とを含む端末装置100と、交通情報提供サーバ200とを備える交通情報提供システム1000を例にして説明するが、本発明はこれに限定されるものではない。 That is, in this specification, a terminal including a portable terminal device 100A, an in-vehicle terminal device 100B, and an installed terminal device 300 as one aspect of a traffic information providing system including the terminal device and the server according to the present invention. A traffic information providing system 1000 including the device 100 and the traffic information providing server 200 will be described as an example, but the present invention is not limited to this.
 本明細書では、本発明に係る通信手段と、位置検出手段と、検出制御手段と、送信制御手段と、を備える端末装置の一態様として、通信装置20と、位置検出装置30と、検出制御機能と送信制御機能を備える制御装置10と、データベース40と、センサ50とを備える端末装置100を例にして説明するが、本発明はこれに限定されるものではない。 In the present specification, as one aspect of a terminal device including a communication unit, a position detection unit, a detection control unit, and a transmission control unit according to the present invention, a communication device 20, a position detection device 30, and a detection control are provided. The terminal device 100 including the control device 10 having the function and the transmission control function, the database 40, and the sensor 50 will be described as an example, but the present invention is not limited to this.
 また、本明細書では、本発明に係る検出制御手段、送信制御手段、状態判断手段、道路属性判断手段、エリア設定手段を備える端末装置の一態様として、検出制御機能と、送信制御機能と、状態判断機能と、道路属性判断機能と、エリア設定機能とを実行する制御装置10を備える端末装置100を例にして説明するが、本発明はこれに限定されるものではない。 Further, in the present specification, as one aspect of the terminal device including the detection control unit, the transmission control unit, the state determination unit, the road attribute determination unit, and the area setting unit according to the present invention, a detection control function, a transmission control function, The terminal device 100 including the control device 10 that executes the state determination function, the road attribute determination function, and the area setting function will be described as an example, but the present invention is not limited to this.
 本明細書では、本発明に係る端末装置が備える、第1位置検出部、第2位置検出部、誤差エリア検出部を有する位置検出手段の一態様として、第1位置検出機能、第2位置検出機能、誤差エリア検出機能を有する位置検出装置30を例にして説明するが、本発明はこれに限定されるものではない。 In this specification, a first position detection function, a second position detection, and the like are provided as an aspect of a position detection unit that includes a first position detection unit, a second position detection unit, and an error area detection unit included in the terminal device according to the present invention. The position detection device 30 having functions and error area detection functions will be described as an example, but the present invention is not limited to this.
 本明細書では、本発明に係る生成手段と、サーバ側送信制御手段とを備えるサーバの一態様として、生成機能と送信制御機能とを有する制御装置210と、通信装置220と、データベース240とを備える交通情報提供サーバ200を一例にして説明するが、本発明はこれに限定されるものではない。 In the present specification, as an aspect of a server including a generation unit and a server-side transmission control unit according to the present invention, a control device 210 having a generation function and a transmission control function, a communication device 220, and a database 240 are provided. The traffic information providing server 200 provided will be described as an example, but the present invention is not limited to this.
 本明細書では、本発明に係る位置情報収集手段と、道路位置算出手段と、補正量算出手段と、生成手段と、サーバ側送信制御手段とを備えるサーバの一態様として、位置情報収集機能と、道路位置算出機能と、補正量算出機能と、生成機能と、送信制御機能とを実行する制御装置210を備える交通情報提供サーバ200を一例にして説明するが、本発明はこれに限定されるものではない。 In the present specification, as one aspect of a server including a position information collection unit, a road position calculation unit, a correction amount calculation unit, a generation unit, and a server-side transmission control unit according to the present invention, a position information collection function, The traffic information providing server 200 including the control device 210 that executes the road position calculation function, the correction amount calculation function, the generation function, and the transmission control function will be described as an example, but the present invention is limited to this. It is not a thing.
1000…交通情報提供システム 
100,100A,100B…端末装置
 10…制御装置
  11…CPU
  12…ROM
  13…RAM
 20…通信装置
 30…位置検出装置
 40…データベース
 50…センサ
200…交通情報提供サーバ
 210…制御装置
  211…CPU
  212…ROM
  213…RAM
 220…通信装置
 230…位置検出装置
 240…データベース
300…路側装置
 320…通信装置
 240…データベース
 350…センサ
1000 ... Traffic information provision system
100, 100A, 100B ... Terminal device 10 ... Control device 11 ... CPU
12 ... ROM
13 ... RAM
DESCRIPTION OF SYMBOLS 20 ... Communication apparatus 30 ... Position detection apparatus 40 ... Database 50 ... Sensor 200 ... Traffic information provision server 210 ... Control apparatus 211 ... CPU
212 ... ROM
213 ... RAM
220 ... Communication device 230 ... Position detection device 240 ... Database 300 ... Roadside device 320 ... Communication device 240 ... Database 350 ... Sensor

Claims (40)

  1.  サーバと、前記サーバと通信可能な端末装置と、を備える交通情報提供システムであって、
     前記端末装置は、
     前記サーバと通信回線網を介して情報の授受を行う通信手段と、
     現在の位置情報を検出する位置検出手段と、
     前記通信手段の通信状況に基づいて、予め選択された特定交差点を含むように設定された位置検出エリア以内に前記端末装置が存在すると判断した場合には、前記位置検出手段に位置情報を検出させる検出制御手段と、
     前記検出された位置情報に基づいて、前記位置検出エリアに含まれるとともに、前記予め選択された特定交差点を基準に設定された情報送信エリア以内に前記端末装置が存在すると判断した場合には、前記通信手段に前記検出された位置情報を前記サーバへ送信させる送信制御手段と、を有することを特徴とする交通情報提供システム。
    A traffic information providing system comprising a server and a terminal device capable of communicating with the server,
    The terminal device
    A communication means for exchanging information with the server via a communication network;
    Position detecting means for detecting current position information;
    Based on the communication status of the communication means, if it is determined that the terminal device exists within a position detection area set to include a specific intersection selected in advance, the position detection means is caused to detect position information. Detection control means;
    When it is determined that the terminal device exists within the information transmission area that is included in the position detection area and set based on the specific intersection selected in advance based on the detected position information, And a transmission control means for causing the communication means to transmit the detected position information to the server.
  2.  前記検出制御手段は、前記特定交差点との距離が短いほど、前記位置検出手段に位置情報を検出させる頻度を高くすることを特徴とする請求項1に記載の交通情報提供システム。 The traffic information providing system according to claim 1, wherein the detection control means increases the frequency with which the position detection means detects position information as the distance from the specific intersection is shorter.
  3.  前記位置検出エリアは、携帯電話用の通信回線網に設けられた基地局の通信エリア、無線ローカルエリアネットワークの通信回線網に設けられた基地局の通信エリア、及び高度道路交通システムの通信回線網に設けられた基地局の通信エリアの何れか一つ以上に基づいて設定されることを特徴とする請求項1又は2に記載の交通情報提供システム。 The location detection area includes a communication area of a base station provided in a communication line network for a mobile phone, a communication area of a base station provided in a communication line network of a wireless local area network, and a communication line network of an intelligent transportation system The traffic information providing system according to claim 1, wherein the traffic information providing system is set based on any one or more of communication areas of base stations provided in the network.
  4.  前記サーバは、前記端末装置が送信した位置情報を収集し、前記収集された位置情報に基づいて交通情報を生成する生成手段と、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するサーバ側送信制御手段と、を有することを特徴とする請求項1~3の何れか一項に記載の交通情報提供システム。
    The server collects the positional information transmitted by the terminal device, and generates traffic information based on the collected positional information;
    The traffic information provision according to any one of claims 1 to 3, further comprising server-side transmission control means for transmitting the generated traffic information to the terminal device via the communication line network. system.
  5.  前記端末装置は、携帯可能な携帯型の端末装置と、車両に搭載された車載型の端末装置と、路側に設けられた設置型の端末装置とを含むことを特徴とする請求項1~4の何れか一項に記載の交通情報提供システム。 The terminal device includes a portable terminal device that is portable, an in-vehicle terminal device mounted on a vehicle, and an installation-type terminal device provided on a roadside. The traffic information providing system according to any one of the above.
  6.  通信回線網を介してサーバと通信を行う機能と、位置情報を検出する機能とを有する端末装置に、
     前記端末装置の前記通信の状況に基づいて、予め選択された特定交差点を含むように設定された位置検出エリア以内に前記端末装置が存在するか否かを判断させるステップと、
     前記端末装置が前記位置検出エリア以内に存在すると判断された場合には、前記端末装置に前記位置情報を検出する機能を起動させるステップと、
     前記検出された位置情報が、前記位置検出エリア以内であって、前記特定交差点を基準に設定された情報送信エリア以内に含まれるか否かを判断させるステップと、
     前記端末装置が前記情報送信エリア以内に存在すると判断された場合には、前記通信を行う機能を起動させ、前記検出された位置情報を前記サーバに送出させるステップと、を実行させることを特徴とする交通情報提供方法。
    In a terminal device having a function of communicating with a server via a communication network and a function of detecting position information,
    Determining whether the terminal device exists within a position detection area set to include a specific intersection selected in advance based on the communication status of the terminal device; and
    When it is determined that the terminal device is present within the position detection area, starting the function of detecting the position information in the terminal device;
    Determining whether the detected position information is within the position detection area and within the information transmission area set with reference to the specific intersection; and
    When it is determined that the terminal device is present within the information transmission area, the function of performing the communication is activated and the detected position information is transmitted to the server. To provide traffic information.
  7.  前記送信制御手段は、前記特定交差点の位置に対する前記検出された端末装置の位置に基づいて、前記位置情報を送信する周期を制御することを特徴とする請求項1に記載の交通情報提供システム。 The traffic information providing system according to claim 1, wherein the transmission control means controls a cycle of transmitting the location information based on the detected location of the terminal device with respect to the location of the specific intersection.
  8.  前記送信制御手段は、前記特定交差点に対する前記端末装置の存在方向を算出し、前記存在方向と前記特定交差点を構成する道路の延在方向との成す角度が所定値以上である場合には、前記位置情報を前記サーバに送信する周期を長くすること特徴とする請求項7に記載の交通情報提供システム。 The transmission control means calculates the existence direction of the terminal device with respect to the specific intersection, and when an angle formed by the existence direction and the extending direction of a road constituting the specific intersection is a predetermined value or more, The traffic information providing system according to claim 7, wherein a period for transmitting the position information to the server is lengthened.
  9.  前記送信制御手段は、前記特定交差点と前記端末装置の存在位置との距離が長いほど、前記位置情報を前記サーバに送信する周期を長くすることを特徴とする請求項7又は8に記載の交通情報提供システム。 The traffic according to claim 7 or 8, wherein the transmission control means lengthens a cycle for transmitting the position information to the server as the distance between the specific intersection and the location of the terminal device is longer. Information provision system.
  10.  前記送信制御手段は、前記特定交差点に接近する前記端末装置の移動速度が高いほど、前記位置情報を前記サーバに送信する周期を短くすることを特徴とする請求項7~9の何れか一項に記載の交通情報提供システム。 The transmission control means shortens a cycle for transmitting the position information to the server as the moving speed of the terminal device approaching the specific intersection is higher. The traffic information provision system described in 1.
  11.  前記送信制御手段は、前記端末装置の移動速度が所定値未満乃至ゼロである時間が所定時間以上である場合には、前記位置情報を前記サーバに送信する処理を中止させることを特徴とする請求項7~10の何れか一項に記載の交通情報提供システム。 The transmission control means, when the time during which the moving speed of the terminal device is less than a predetermined value or zero is a predetermined time or more, stops the process of transmitting the position information to the server. Item 11. The traffic information providing system according to any one of Items 7 to 10.
  12.  前記送信制御手段は、前記端末装置が前記特定交差点から離隔する場合には、前記位置情報を前記サーバに送信する処理を中止させることを特徴とする請求項7~11の何れか一項に記載の交通情報提供システム。 12. The transmission control unit according to claim 7, wherein when the terminal device is separated from the specific intersection, the transmission control unit stops the process of transmitting the location information to the server. Traffic information provision system.
  13.  前記サーバは、前記端末装置が送信した位置情報を収集し、前記収集された位置情報に基づいて交通情報を生成する生成手段と、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するサーバ側送信制御手段と、を有することを特徴とする請求項7~12の何れか一項に記載の交通情報提供システム。
    The server collects the positional information transmitted by the terminal device, and generates traffic information based on the collected positional information;
    The traffic information provision according to any one of claims 7 to 12, further comprising server-side transmission control means for transmitting the generated traffic information to the terminal device via the communication line network. system.
  14.  前記端末装置は、携帯可能な携帯型端末装置と、路側に設けられた設置型端末装置とを含むことを特徴とする請求項7~13の何れか一項に記載の交通情報提供システム。 The traffic information providing system according to any one of claims 7 to 13, wherein the terminal device includes a portable terminal device that is portable and an installed terminal device provided on a roadside.
  15.  前記端末装置の状態を判断する状態判断手段を、さらに備え、
     前記判断された端末装置の状態に基づいて、前記位置検出エリア及び前記情報送信エリアを設定するエリア設定手段と、をさらに有することを特徴とする請求項1に記載の交通情報提供システム。
    A state determining means for determining a state of the terminal device;
    The traffic information providing system according to claim 1, further comprising area setting means for setting the position detection area and the information transmission area based on the determined state of the terminal device.
  16.  前記状態判断手段は、前記端末装置の移動速度を判断し、
     前記エリア設定手段は、前記端末装置の移動速度が速いほど、前記位置検出エリア及び前記情報送信エリアの面積が大きくなるように設定することを特徴とする請求項15に記載の交通情報提供システム。
    The state determination means determines a moving speed of the terminal device,
    The traffic information providing system according to claim 15, wherein the area setting unit sets the area of the position detection area and the information transmission area to increase as the moving speed of the terminal device increases.
  17.  前記状態判断手段は、前記端末装置の速度、振動及び位置のうち何れか一つ以上の状態から、前記端末装置を移動させる移動体が歩行者、自転車、オートバイ、若しくは自動車の何れの物体であるか又は歩行者、自転車、オートバイ、及び自動車以外の物体であるかの前記移動体の属性を判断し、
     前記エリア設定手段は、
     前記移動体が歩行者である場合には、第1の面積の第1の前記位置検出エリア及び第2の面積の第2の前記情報送信エリアを設定し、
     前記移動体が自転車である場合には、第1の面積よりも大きい第3の面積の第3の前記位置検出エリア及び第2の面積よりも大きい第4の面積の第4の前記情報送信エリアを設定し、
     前記移動体がオートバイ又は自動車である場合には、第3の面積よりも大きい第5の面積の第5の前記位置検出エリア及び第4の面積よりも大きい第6の面積の第6の前記情報送信エリアを設定することを特徴とする請求項15に記載の交通情報提供システム。
    In the state determination means, the moving body that moves the terminal device from any one of the speed, vibration, and position of the terminal device is any object such as a pedestrian, a bicycle, a motorcycle, or an automobile. Or determining the attribute of the moving object as an object other than a pedestrian, bicycle, motorcycle, and automobile,
    The area setting means includes
    When the moving body is a pedestrian, set the first position detection area of the first area and the second information transmission area of the second area,
    When the moving body is a bicycle, the third position detection area having a third area larger than the first area and the fourth information transmission area having a fourth area larger than the second area Set
    When the mobile body is a motorcycle or an automobile, the fifth position detection area having a fifth area larger than the third area and the sixth information having a sixth area larger than the fourth area The traffic information providing system according to claim 15, wherein a transmission area is set.
  18.  前記状態判断手段は、前記端末装置が受け付ける入力情報から、前記端末装置を移動させる移動体が歩行者、自転車、オートバイ、若しくは自動車の何れの物体であるか又は歩行者、自転車、オートバイ、及び自動車以外の物体であるかの前記移動体の属性を判断し、
     前記エリア設定手段は、
     前記移動体が歩行者である場合には、第1の面積の第1の前記位置検出エリア及び第2の面積の第2の前記情報送信エリアを設定し、
     前記移動体が自転車である場合には、第1の面積よりも大きい第3の面積の第3の前記位置検出エリア及び第2の面積よりも大きい第4の面積の第4の前記情報送信エリアを設定し、
     前記移動体がオートバイ又は自動車である場合には、第3の面積よりも大きい第5の面積の第5の前記位置検出エリア及び第4の面積よりも大きい第6の面積の第6の前記情報送信エリアを設定することを特徴とする請求項15に記載の交通情報提供システム。
    The state determination means determines whether the moving body that moves the terminal device is a pedestrian, a bicycle, a motorcycle, or an automobile, or a pedestrian, a bicycle, a motorcycle, and an automobile based on input information received by the terminal device. Determining the attribute of the moving body as an object other than
    The area setting means includes
    When the moving body is a pedestrian, set the first position detection area of the first area and the second information transmission area of the second area,
    When the moving body is a bicycle, the third position detection area having a third area larger than the first area and the fourth information transmission area having a fourth area larger than the second area Set
    When the mobile body is a motorcycle or an automobile, the fifth position detection area having a fifth area larger than the third area and the sixth information having a sixth area larger than the fourth area The traffic information providing system according to claim 15, wherein a transmission area is set.
  19.  前記サーバは、前記端末装置が送信した位置情報を収集し、前記収集された位置情報に基づいて交通情報を生成する生成手段と、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するサーバ側送信制御手段と、を有することを特徴とする請求項15~18の何れか一項に記載の交通情報提供システム。
    The server collects the positional information transmitted by the terminal device, and generates traffic information based on the collected positional information;
    The traffic information provision according to any one of claims 15 to 18, further comprising server side transmission control means for transmitting the generated traffic information to the terminal device via the communication line network. system.
  20.  前記端末装置は、携帯可能な携帯型端末装置と、路側に設けられた設置型端末装置とを含むことを特徴とする請求項15~19の何れか一項に記載の交通情報提供システム。 The traffic information providing system according to any one of claims 15 to 19, wherein the terminal device includes a portable terminal device that is portable, and a stationary terminal device provided on a roadside.
  21.  前記位置検出手段により検出された前記端末装置の位置情報が含まれる道路の属性を、道路属性を含む地図情報を参照して判断する道路属性判断手段を、さらに備え、
     前記判断された道路の属性に基づいて、前記位置検出エリア及び前記情報送信エリアを設定するエリア設定手段と、をさらに有することを特徴とする請求項1に記載の交通情報提供システム。
    Road attribute determination means for determining the attribute of the road including the position information of the terminal device detected by the position detection means with reference to map information including the road attribute,
    2. The traffic information providing system according to claim 1, further comprising area setting means for setting the position detection area and the information transmission area based on the determined road attribute.
  22.  前記道路属性判断手段は、前記端末装置の位置情報が含まれる道路の制限速度を、前記各道路の制限速度を含む地図情報を参照して判断し、
     前記エリア設定手段は、前記道路の制限速度が速いほど、前記位置検出エリア及び前記情報送信エリアの面積が大きくなるように設定することを特徴とする請求項21に記載の交通情報提供システム。
    The road attribute determining means determines a speed limit of a road including the position information of the terminal device with reference to map information including the speed limit of each road,
    The traffic information providing system according to claim 21, wherein the area setting means sets the area of the position detection area and the information transmission area to increase as the speed limit of the road increases.
  23.  前記道路属性判断手段は、前記端末装置の位置情報が含まれる道路の路幅を、前記各道路の路幅を含む地図情報を参照して判断し、
     前記エリア設定手段は、前記道路の路幅が大きいほど、前記位置検出エリア及び前記情報送信エリアの面積が大きくなるように設定することを特徴とする請求項21に記載の交通情報提供システム。
    The road attribute determining means determines the road width of the road including the position information of the terminal device with reference to map information including the road width of each road,
    The traffic information providing system according to claim 21, wherein the area setting means sets the area of the position detection area and the information transmission area to increase as the road width of the road increases.
  24.  前記道路属性判断手段は、前記端末装置の位置情報が含まれる歩道又は前記端末装置の位置情報が含まれる道路に沿って設けられた歩道の路幅を、前記道路に沿って設けられた歩道の路幅を含む地図情報を参照して判断し、
     前記エリア設定手段は、前記歩道の路幅が大きいほど、前記位置検出エリア及び前記情報送信エリアの面積が大きくなるように設定することを特徴とする請求項21に記載の交通情報提供システム。
    The road attribute determining means is configured to determine a width of a sidewalk provided along the road including the location information of the terminal device or a sidewalk provided along the road including the location information of the terminal device. Judging by referring to map information including road width,
    The traffic information providing system according to claim 21, wherein the area setting means sets the area of the position detection area and the information transmission area to increase as the width of the sidewalk increases.
  25.  前記道路属性判断手段は、前記端末装置の位置情報が含まれる道路の形状を、前記各道路の形状を含む地図情報を参照して判断し、
     前記エリア設定手段は、前記道路の形状に沿う形状の前記位置検出エリア及び前記情報送信エリアを設定することを特徴とする請求項21に記載の交通情報提供システム。
    The road attribute determining means determines the shape of the road including the position information of the terminal device with reference to map information including the shape of each road,
    The traffic information providing system according to claim 21, wherein the area setting means sets the position detection area and the information transmission area having a shape along the shape of the road.
  26.  前記道路属性判断手段は、前記端末装置の位置情報として高さ情報を取得し、当該取得した高さ情報に基づいて、前記各道路の属性と前記各道路の高さとが対応づけられた地図情報を参照し、前記端末装置の位置情報が含まれる道路の属性を判断することを特徴とする請求項21~25の何れか一項に記載の交通情報提供システム。 The road attribute determination means acquires height information as the position information of the terminal device, and map information in which the attribute of each road and the height of each road are associated with each other based on the acquired height information The traffic information providing system according to any one of claims 21 to 25, wherein a road attribute including position information of the terminal device is determined with reference to FIG.
  27.  前記エリア設定手段は、前記端末装置の移動速度を取得し、前記端末装置の移動速度が速いほど、前記位置検出エリア及び前記情報送信エリアの面積が大きくなるように設定することを特徴とする請求項21~26の何れか一項に記載の交通情報提供システム。 The area setting means acquires the moving speed of the terminal device, and sets the area of the position detection area and the information transmission area to increase as the moving speed of the terminal device increases. Item 27. The traffic information providing system according to any one of Items 21 to 26.
  28.  前記サーバは、前記端末装置が送信した位置情報を収集し、前記収集された位置情報に基づいて交通情報を生成する生成手段と、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するサーバ側送信制御手段と、を有することを特徴とする請求項21~27の何れか一項に記載の交通情報提供システム。
    The server collects the positional information transmitted by the terminal device, and generates traffic information based on the collected positional information;
    The traffic information provision according to any one of claims 21 to 27, further comprising server-side transmission control means for transmitting the generated traffic information to the terminal device via the communication line network. system.
  29.  前記端末装置は、携帯可能な携帯型端末装置と、路側に設けられた設置型端末装置とを含むことを特徴とする請求項21~28の何れか一項に記載の交通情報提供システム。 The traffic information providing system according to any one of claims 21 to 28, wherein the terminal device includes a portable terminal device that is portable and an installed terminal device provided on a roadside.
  30.  通信回線網を介してサーバと通信を行う機能と、位置情報を検出する機能とを有する端末装置に、
     前記検出された端末装置の位置情報が含まれる道路の属性を、道路属性を含む地図情報を参照して判断させるステップと、
     前記判断された道路の属性に基づいて、予め選択された特定交差点を含み、前記端末装置の位置を検出する機能を起動させるエリアとして定義された位置検出エリア及び前記検出される位置情報を前記サーバへ送出させるエリアとして前記特定交差点を基準に定義された情報送信エリアを設定させるステップと、
     前記端末装置の前記通信の状況に基づいて、当該端末装置が前記設定された位置検出エリア以内に存在するか否かを判断させるステップと、
     前記端末装置が前記位置検出エリア以内に存在すると判断された場合には、前記位置情報を検出する機能を起動させるステップと、
     前記検出された位置情報が、予め設定された情報送信エリア以内に含まれるか否かを判断させるステップと、
     前記端末装置が前記情報送信エリア以内に存在すると判断された場合には、前記通信を行う機能を起動させ、前記検出された位置情報を前記サーバに送出させるステップと、を実行させることを特徴とする交通情報提供方法。
    In a terminal device having a function of communicating with a server via a communication network and a function of detecting position information,
    Determining the attribute of the road including the detected location information of the terminal device with reference to map information including the road attribute;
    Based on the determined road attribute, the server includes a position detection area that includes a specific intersection selected in advance and is defined as an area that activates a function of detecting the position of the terminal device, and the detected position information. Setting an information transmission area defined on the basis of the specific intersection as an area to be sent to,
    Determining whether the terminal device exists within the set position detection area based on the communication status of the terminal device; and
    If it is determined that the terminal device exists within the position detection area, a step of activating a function of detecting the position information;
    Determining whether the detected position information is included within a preset information transmission area; and
    When it is determined that the terminal device is present within the information transmission area, the function of performing the communication is activated and the detected position information is transmitted to the server. To provide traffic information.
  31.  前記サーバは、
     前記端末装置と通信回線網を介して情報の授受を行うサーバ側通信手段と、
     前記通信手段を介して前記端末装置が検出した位置情報を収集し、当該収集した位置情報をアクセス可能な地図情報上にプロットする位置情報収集手段と、
     前記地図情報上にプロットされた位置情報群に基づいて、道路の位置を算出する道路位置算出手段と、
     前記算出された道路の位置と、前記地図情報上に定義された道路の位置とを比較し、前記端末装置から受信した位置情報の補正量を算出する補正量算出手段と、
     前記端末装置が送信した位置情報を収集し、前記収集された位置情報に基づいて交通情報を生成する生成手段と、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するサーバ側送信制御手段と、を有し、
     前記生成手段は、前記補正量算出手段により算出された位置情報の補正量に基づいて、前記特定交差点の位置、前記位置検出エリアの位置、及び前記情報送信エリアの位置を補正し、当該補正後の前記特定交差点の位置、前記位置検出エリアの位置、及び前記情報送信エリアの位置を含む交通情報を生成することを特徴とする請求項1に記載の交通情報提供システム。
    The server
    Server-side communication means for exchanging information with the terminal device via a communication network;
    Position information collecting means for collecting position information detected by the terminal device via the communication means and plotting the collected position information on accessible map information;
    Road position calculating means for calculating the position of the road based on the position information group plotted on the map information;
    A correction amount calculating means for comparing the calculated road position with the position of the road defined on the map information and calculating a correction amount of the position information received from the terminal device;
    Generating means for collecting location information transmitted by the terminal device and generating traffic information based on the collected location information;
    Server-side transmission control means for transmitting the generated traffic information to the terminal device via the communication line network,
    The generation unit corrects the position of the specific intersection, the position of the position detection area, and the position of the information transmission area based on the correction amount of the position information calculated by the correction amount calculation unit. The traffic information providing system according to claim 1, wherein traffic information including a position of the specific intersection, a position of the position detection area, and a position of the information transmission area is generated.
  32.  前記端末装置の前記検出制御手段は、前記交通情報を取得した場合には、前記補正後の位置検出エリアの位置に基づいて前記位置検出手段に位置情報を検出させるとともに、
     前記送信制御手段は、前記交通情報を取得した場合には、前記補正後の情報送信エリアの位置に基づいて前記通信手段に位置情報を送信させることを特徴とする請求項31に記載の交通情報提供システム。
    When the traffic information is acquired, the detection control unit of the terminal device causes the position detection unit to detect position information based on the position of the corrected position detection area, and
    32. The traffic information according to claim 31, wherein, when the traffic information is acquired, the transmission control unit causes the communication unit to transmit position information based on the position of the corrected information transmission area. Offer system.
  33.  前記道路位置算出手段は、前記地図情報上にプロットされた位置情報から線形を抽出し、抽出した線形から道路の位置を算出し、
     前記補正量算出手段は、前記道路位置算出手段により算出された道路の交点の位置と前記地図情報上の特定交差点の位置とのずれ量に基づいて、前記端末装置から受信した位置情報の補正量を算出する請求項31又は32に記載の交通情報提供システム。
    The road position calculation means extracts a line shape from position information plotted on the map information, calculates a road position from the extracted line shape,
    The correction amount calculation means is a correction amount of the position information received from the terminal device based on a deviation amount between the position of the road intersection calculated by the road position calculation means and the position of the specific intersection on the map information. The traffic information providing system according to claim 31 or 32, wherein the traffic information is calculated.
  34.  前記端末装置の前記送信制御手段は、前記端末装置の移動速度を前記位置情報とともに、前記通信手段に前記サーバに送信させ、
     前記サーバの位置情報収集手段は、前記通信手段を介して前記端末装置が検出した位置情報及び移動速度を収集し、当該収集した位置情報と移動速度を対応づけて、アクセス可能な地図情報上にプロットし、
     前記道路位置算出手段は、前記地図情報上にプロットされた位置情報のうち、所定値以上の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる車道の位置を算出することを特徴とする請求項31~33の何れか一項に記載の交通情報提供システム。
    The transmission control means of the terminal device causes the communication means to transmit the moving speed of the terminal device together with the position information to the server,
    The server location information collecting means collects the location information and the moving speed detected by the terminal device via the communication means, and associates the collected location information with the moving speed on the accessible map information. Plot and
    The road position calculation means calculates a position of a roadway included in the road based on a position information group associated with a moving speed equal to or higher than a predetermined value among the position information plotted on the map information. The traffic information providing system according to any one of claims 31 to 33, characterized in that the system is provided.
  35.  前記端末装置の前記送信制御手段は、前記端末装置の移動速度を前記位置情報とともに、前記通信手段に前記サーバへ送信させ、
     前記サーバの位置情報収集手段は、前記通信手段を介して前記端末装置が検出した位置情報及び移動速度を収集し、当該収集した位置情報と移動速度を対応づけて、アクセス可能な地図情報上にプロットし、
     前記道路位置算出手段は、前記地図情報上にプロットされた位置情報のうち、所定値未満の移動速度に対応づけられた位置情報群に基づいて、道路に含まれる歩道の位置を算出することを特徴とする請求項31~33の何れか一項に記載の交通情報提供システム。
    The transmission control means of the terminal device causes the communication means to transmit the moving speed of the terminal device together with the position information to the server,
    The server location information collecting means collects the location information and the moving speed detected by the terminal device via the communication means, and associates the collected location information with the moving speed on the accessible map information. Plot and
    The road position calculating means calculates a position of a sidewalk included in the road based on a position information group associated with a moving speed less than a predetermined value among the position information plotted on the map information. The traffic information providing system according to any one of claims 31 to 33, characterized in that the system is provided.
  36.  前記道路位置算出手段は、前記地図情報上にプロットされた位置情報に基づいて、互いに略平行である線分であって、当該線分の間にプロットされた位置情報の数が最も少なくなるように抽出された線分の位置を、道路に含まれる複数の車線の位置として算出し、
     前記補正量算出手段は、前記算出された車線の位置と、前記地図情報上に定義された車線の位置とを比較し、前記端末装置から受信した位置情報の補正量を算出することを特徴とする請求項31~35の何れか一項に記載の交通情報提供システム。
    The road position calculation means is a line segment that is substantially parallel to each other based on the position information plotted on the map information, so that the number of position information plotted between the line segments is minimized. The position of the line segment extracted in is calculated as the position of multiple lanes included in the road,
    The correction amount calculating means compares the calculated lane position with a lane position defined on the map information, and calculates a correction amount of the position information received from the terminal device. The traffic information providing system according to any one of claims 31 to 35.
  37.  前記道路位置算出手段は、前記地図情報上にプロットされた位置情報のうち偏差が所定値未満の位置情報群に基づいて、道路に含まれる複数の車線の位置を算出し、
     前記補正量算出手段は、前記算出された車線の位置と、前記地図情報上に定義された車線の位置とを比較し、前記端末装置から受信した位置情報の補正量を算出することを特徴とする請求項31~35の何れか一項に記載の交通情報提供システム。
    The road position calculation means calculates positions of a plurality of lanes included in the road based on a position information group whose deviation is less than a predetermined value among the position information plotted on the map information,
    The correction amount calculating means compares the calculated lane position with a lane position defined on the map information, and calculates a correction amount of the position information received from the terminal device. The traffic information providing system according to any one of claims 31 to 35.
  38.  前記道路位置算出手段は、前記地図情報上にプロットされた位置情報のうち、前記特定交差点内にプロットされた位置情報以外の位置情報群に基づいて道路の位置を算出することを特徴とする請求項31~37の何れか一項に記載の交通情報提供システム。 The road position calculation means calculates a road position based on a position information group other than the position information plotted in the specific intersection among the position information plotted on the map information. Item 38. The traffic information providing system according to any one of Items 31 to 37.
  39.  前記端末装置は、携帯可能な携帯型端末装置と、路側に設けられた設置型端末装置とを含むことを特徴とする請求項31~38の何れか一項に記載の交通情報提供システム。 The traffic information providing system according to any one of claims 31 to 38, wherein the terminal device includes a portable terminal device that is portable and an installed terminal device provided on a roadside.
  40.  通信回線網を介してサーバと通信を行う機能と、位置情報を検出する機能とを有する端末装置と通信可能なサーバに、
     前記端末装置が検出した位置情報を収集し、当該収集した位置情報をアクセス可能な地図情報上にプロットさせるステップと、
     前記地図情報上にプロットされた位置情報群に基づいて、道路の位置を算出するステップと、
     前記算出された道路の位置と、前記地図情報上に定義された道路の位置とを比較し、前記端末装置から受信した位置情報の補正量を算出するステップと、
     前記収集された位置情報と前記算出された位置情報の補正量とに基づいて交通情報を生成するステップと、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するステップと、
     前記収集された位置情報と前記算出された位置情報の補正量とに基づいて交通情報を生成するステップと、
     前記生成した交通情報を、前記通信回線網を介して前記端末装置へ送信するステップと、を有することを特徴とする交通情報提供方法。
    A server capable of communicating with a terminal device having a function of communicating with a server via a communication network and a function of detecting position information,
    Collecting the position information detected by the terminal device and plotting the collected position information on accessible map information;
    Calculating the position of the road based on the position information group plotted on the map information;
    Comparing the calculated road position and the road position defined on the map information, and calculating a correction amount of the position information received from the terminal device;
    Generating traffic information based on the collected location information and a correction amount of the calculated location information;
    Transmitting the generated traffic information to the terminal device via the communication line network;
    Generating traffic information based on the collected location information and a correction amount of the calculated location information;
    Transmitting the generated traffic information to the terminal device via the communication line network.
PCT/JP2013/067330 2012-07-11 2013-06-25 Traffic-information delivery system and traffic information delivery method WO2014010407A1 (en)

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Cited By (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2017139658A (en) * 2016-02-04 2017-08-10 ソニー株式会社 User terminal, rsu, method, and program
JP2019036897A (en) * 2017-08-18 2019-03-07 ヤフー株式会社 Information processing program, information processing device, and information processing method
CN109785617A (en) * 2019-01-03 2019-05-21 中国联合网络通信集团有限公司 The processing method of traffic control information
US20220046382A1 (en) * 2019-11-27 2022-02-10 Qualcomm Incorporated Positioning of vehicles and pedestrians leveraging ranging signal
CN114079880A (en) * 2020-08-10 2022-02-22 大唐高鸿智联科技(重庆)有限公司 Information processing method, terminal, road side node and Internet of vehicles system

Families Citing this family (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP7403629B2 (en) * 2020-03-03 2023-12-22 本田技研工業株式会社 Communication devices, vehicles, programs, and communication methods

Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003284121A (en) * 2002-03-20 2003-10-03 Seiko Epson Corp Method for outputting positional information or position related information, mobile terminal, positional information providing system, program, and medium having the program recorded thereon
JP2006135727A (en) * 2004-11-08 2006-05-25 Vodafone Kk Radio communications terminal equipment
JP2007184958A (en) * 2007-02-13 2007-07-19 Hitachi Ltd Information communication terminal, and communication system
JP2008020307A (en) * 2006-07-12 2008-01-31 Toyota Motor Corp Navigation system, and position detecting method
JP2009116741A (en) * 2007-11-08 2009-05-28 Chugoku Electric Power Co Inc:The Running-in-front-of-car warning system and method
JP2010198260A (en) * 2009-02-25 2010-09-09 Hitachi Automotive Systems Ltd Safe driving support system and onboard terminal
JP2011087170A (en) * 2009-10-16 2011-04-28 Nissan Motor Co Ltd Map data generating apparatus, preventive safety system, and map data generating method
JP2011154567A (en) * 2010-01-27 2011-08-11 Kyocera Corp Communication system and mobile communication apparatus

Patent Citations (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2003284121A (en) * 2002-03-20 2003-10-03 Seiko Epson Corp Method for outputting positional information or position related information, mobile terminal, positional information providing system, program, and medium having the program recorded thereon
JP2006135727A (en) * 2004-11-08 2006-05-25 Vodafone Kk Radio communications terminal equipment
JP2008020307A (en) * 2006-07-12 2008-01-31 Toyota Motor Corp Navigation system, and position detecting method
JP2007184958A (en) * 2007-02-13 2007-07-19 Hitachi Ltd Information communication terminal, and communication system
JP2009116741A (en) * 2007-11-08 2009-05-28 Chugoku Electric Power Co Inc:The Running-in-front-of-car warning system and method
JP2010198260A (en) * 2009-02-25 2010-09-09 Hitachi Automotive Systems Ltd Safe driving support system and onboard terminal
JP2011087170A (en) * 2009-10-16 2011-04-28 Nissan Motor Co Ltd Map data generating apparatus, preventive safety system, and map data generating method
JP2011154567A (en) * 2010-01-27 2011-08-11 Kyocera Corp Communication system and mobile communication apparatus

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2017139658A (en) * 2016-02-04 2017-08-10 ソニー株式会社 User terminal, rsu, method, and program
US10728723B2 (en) 2016-02-04 2020-07-28 Sony Corporation User terminal, RSU, method and program
JP2019036897A (en) * 2017-08-18 2019-03-07 ヤフー株式会社 Information processing program, information processing device, and information processing method
CN109785617A (en) * 2019-01-03 2019-05-21 中国联合网络通信集团有限公司 The processing method of traffic control information
US20220046382A1 (en) * 2019-11-27 2022-02-10 Qualcomm Incorporated Positioning of vehicles and pedestrians leveraging ranging signal
US11622232B2 (en) * 2019-11-27 2023-04-04 Qualcomm Incorporated Positioning of vehicles and pedestrians leveraging ranging signal
US11758357B2 (en) 2019-11-27 2023-09-12 Qualcomm Incorporated Positioning of vehicles and pedestrians leveraging ranging signal
CN114079880A (en) * 2020-08-10 2022-02-22 大唐高鸿智联科技(重庆)有限公司 Information processing method, terminal, road side node and Internet of vehicles system

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