JP3963848B2 - Traffic information provision system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a traffic information providing system that provides traffic information to a vehicle traveling on a road.
[0002]
[Prior art]
In recent years, traffic information systems that provide information such as accidents, traffic jams, road surface conditions, and the like to vehicles traveling on roads have become widespread. For example, in the VICS (Vehicle Information and Communication System) (VICS is a registered trademark) operated by the Road Traffic Information Communication System Center, information from the police and road managers is edited and processed at the center. It is provided to a traveling vehicle through radio wave beacons, optical beacons installed on the road, or FM (Frequency Modulation) multiplex broadcasting. In the vehicle, by processing the received information using a car navigation system or the like, the driver can be notified of information such as road traffic conditions and the optimum route to the destination as display or audio information on the display. it can.
[0003]
Recently, a system that prevents an accident from occurring by providing a driver with an event at a nearby point of the vehicle has been developed. For example, the Advanced Cruise-assist Highway System (AHS), which is being researched by the Technical Research Association's Travel Assistance Road System Development Organization, is an obstacle to the vehicle facing or the vehicle or falling objects at poor-sightlines. Information on the location of objects and vehicles in the lane is detected by sensors on the road and notified to the vehicle, providing information on the road to the driver and providing various warnings and operational support Assume service.
[0004]
The following is considered as a traffic information system that can provide traffic information at multiple points in real time without installing sensor devices for collecting information at many points. This traffic information system is mainly composed of a plurality of mobile stations that can move and a base station. The mobile station is mounted on a vehicle traveling on a road, for example, and detects the road condition and transmits it to the base station. The base station generates traffic information based on the road condition information received from the mobile station. The generated traffic information is notified to a vehicle equipped with a mobile station. Further, in this traffic information system, the base station is notified of the position and moving speed of the mobile station, and traffic jam prediction information is generated based on the number of vehicles existing in a predetermined range and the temporal change of the moving speed in the base station. (For example, refer to Patent Document 1).
[0005]
[Patent Document 1]
Japanese Patent Laid-Open No. 2001-307276 (paragraph numbers [0032] to [0054], FIG. 1)
[0006]
[Problems to be solved by the invention]
In such a traffic information system and a system for vehicle driving support, etc., basic information for creating information to be notified to the traveling vehicle is collected in real time in as many areas as possible. Is desirable. It is also desirable to notify the traveling vehicle of the collected information as quickly as possible.
[0007]
However, in the above VICS, information is collected by sensors installed in a wide area such as a plurality of prefectures, and all this information is once collected in the center. These pieces of information are collectively edited at the center and distributed to the vehicle. In such a system, although information can be obtained from a wide area, the update period of the information to be provided becomes long and the real-time property is poor. In addition, if the center function stops due to failure or maintenance, information provision may stop in a wide range, and there is redundancy between each communication path from the sensor to the center and from the center to the radio wave / optical beacon. Therefore, when a failure occurs on the communication path, there is a problem that it is impossible to collect information or provide information at that point.
[0008]
On the other hand, in AHS, the information obtained by the sensor is processed by a nearby processing device and distributed to the vehicle using communication in a narrow area covering about several hundred meters to 1 kilometer. Only a narrow range of information can be obtained.
[0009]
The present invention has been made in view of such a problem, and provides a traffic information providing system that can accurately provide information according to an event that has occurred, and that has excellent system resistance in the event of a failure. Objective.
[0010]
[Means for Solving the Problems]
In order to solve the above problems, the present invention provides a traffic information providing system as shown in FIG. This traffic information providing system provides traffic information to a vehicle traveling on a road, detects an event that has occurred on the road 1, and a detection from the event detection device 40. The transmission side communication device 10 that receives the signal and transmits the event information indicating the occurrence of the event, the plurality of information distribution devices 51 to 54 that distribute information to the vehicle traveling on the road, and each of the information distribution devices A plurality of receiving side communication devices 21 to 24 that distribute the received event information, and the transmitting side communication device 10 and the receiving side communication devices 21 to 24 are connected to each other. At the same time, the receiving side communication devices 21 to 24 are connected to each other. The transmission side communication device 10 transmits the event information to the predetermined reception side communication device through the communication line 30 and the reception side communication devices 21 to 24. Each of Through the communication line 30 From the transmission side communication device 10 Receive event information And when the event information is received from another receiving side communication device Determining whether or not to transfer the event information based on the distance from the place where the event occurred and the type of the event information. In addition, the information is distributed to the vehicle by being output to the information distribution apparatuses 51 to 54, and transferred to the other predetermined communication apparatus on the receiving side through the communication line 30.
[0011]
In such a traffic information system, an event occurring on the road 1 is detected by the event detection device 40, and the detection signal is supplied to the transmission side communication device 10. Upon receiving the detection signal from the event detection device 40, the transmission side communication device 10 transmits event information indicating the occurrence of the event to the predetermined reception side communication device through the communication line 30. Each of the receiving side communication devices 21 to 24 receives the event information through the communication line 30, determines whether or not to transfer the event information, and then connects the received event information only when it is determined to transfer the event information. While outputting to the information delivery apparatuses 51-54 and making it deliver to a vehicle, it transfers through the communication line 30 to the other receiving side communication apparatus decided beforehand. Similarly, when each receiving-side communication device 21 to 24 receives event information from another receiving-side communication device through the communication line 30, similarly, when determining that transfer is necessary, The received event information is output to the connected information distribution apparatuses 51 to 54 and transferred to other receiving side communication apparatuses. Accordingly, the event information is directly transmitted from the transmission side communication device 10 to the reception side communication devices 21 to 24 and between the reception side communication devices 21 to 24 through the communication line 30. Redundancy occurs on the road. Further, each of the receiving side communication devices 21 to 24 determines whether or not to transfer the event information based on the distance from the event occurrence location and the type of the event information. For example, according to the type of the event information By performing control so as to transfer to another receiving-side communication device existing within a certain distance, unnecessary information is prevented from flowing on the communication line, and information transmission efficiency is increased.
[0012]
In the present invention, in order to solve the above-mentioned problem, a communication line is used. Mutual Event information indicating the occurrence of an event on a road in a traffic information providing apparatus that provides traffic information through an information distribution device to a vehicle traveling on the road based on information from a plurality of other connected communication devices Is transmitted to the information distribution device and distributed to the vehicle, a line side information transmission / reception unit that transmits / receives the event information through the communication line, and the communication line by the line side information transmission / reception unit. Through When the event information is received from the transmission side communication device that is the detection source of the event, and when the event information is received from the other traffic information providing device Determining whether to transfer the event information based on the distance from the place where the event occurred and the type of the event information. The vehicle-side information transmission unit is controlled to transmit to the information distribution device, and the received event information is predetermined. Provision of other traffic information There is provided a traffic information providing apparatus comprising: a transfer control processing unit that controls the line side information transmitting / receiving unit to transfer to the apparatus through the communication line.
[0013]
In such a traffic information providing device, When event information transmitted from the transmission side communication device is received by the line side information transmitting / receiving unit, and event information transmitted from another traffic information providing device having the same configuration is received The transfer control processing unit determines whether or not to transfer the event information based on the distance from the event occurrence location and the type of event information, and the line side information transmitting / receiving unit and the vehicle side information are determined according to the determination result. Control the transmitter. Only when it is determined to transfer the received event information, elephant The information is transmitted to the information distribution device by the vehicle-side information transmission unit, provided to the vehicle on the road, and predetermined by the line-side information transmission / reception unit. Provision of other traffic information It is transferred to the device through a communication line.
[0014]
Accordingly, by connecting a plurality of such traffic information providing devices as communication devices on the communication line, event information is directly transmitted between the traffic information providing devices through the communication line. Redundancy occurs. Further, the traffic information providing device determines whether to transfer the event information based on the distance from the place where the event occurred and the type of the event information. For example, a range of a certain distance according to the type of the event information. By controlling to forward to other traffic information providing devices existing in the network, unnecessary information is prevented from flowing on the communication line, and the information transmission efficiency is improved.
[0015]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
FIG. 1 is a principle diagram for explaining the principle of the present invention.
[0016]
The traffic information providing system of the present invention is a system for providing traffic information indicating a road condition or the like to a vehicle 2 traveling on a road 1. The traffic information providing system mainly includes a transmission side communication device 10, a plurality of reception side communication devices 21 to 24, and a communication line 30 that connects the transmission side communication device 10 and the reception side communication devices 21 to 24 to each other. Composed. In addition, the transmission side communication device 10 is connected to an event detection device 40 that detects the occurrence of an event on the road 1. In addition, information distribution devices 51 to 54 that distribute information to a running vehicle are connected to the reception side communication devices 21 to 24, respectively.
[0017]
In FIG. 1, only one transmission side communication device 10 and one event detection device 40 are shown, but a plurality of them may actually be provided. Further, in the figure, four receiving side communication devices 21 to 24 and four information distribution devices 51 to 54 are shown, respectively, but actually, a larger number may be provided.
[0018]
The event detection device 40 detects the occurrence of an event on the road 1 and supplies the detection signal to the transmission side communication device 10. For example, the event detection device 40 can be used for traffic conditions based on the presence or absence of vehicles on the road 1 and their traveling speeds, road surface conditions such as the presence or absence of falling objects on the road 1 and freezing, and intersections with poor visibility. It consists of a sensor or the like that detects the vehicle approaching situation or the like. The transmission side communication device 10 receives the detection signal from the event detection device 40 and transmits event information indicating the occurrence of the event to the reception side communication devices 21 and 22 determined in advance through the communication line 30. To do.
[0019]
On the other hand, the information distribution apparatuses 51 to 54 distribute information to the vehicle 2 on the road 1 using, for example, wireless communication, optical communication, FM radio waves, or the like. In addition, the reception side communication devices 21 to 24 can receive event information through the communication line 30 from the transmission side communication device 10 or other reception side communication devices. The reception side communication devices 21 to 24 output the received event information to the connected information distribution devices 51 to 54 and distribute them to the vehicle, and the function of transferring them to other reception side communication devices through the communication line 30. Have
[0020]
Specifically, when receiving the event information, the receiving side communication devices 21 to 24 determine whether to transfer the event information based on the distance from the place where the event occurred and the type of the event information. At this time, each of the receiving side communication devices 21 to 24 refers to, for example, the distance table 21a in which the distance from the event occurrence location and the event information type are associated with each other. And when it determines with transferring, while outputting event information with respect to the connected information delivery apparatuses 51-54, event information is transferred to the other receiving side communication apparatus decided beforehand.
[0021]
In this traffic information providing system, the transmission side communication device 10 is basically installed in the vicinity of the connected event detection device 40. Similarly, the receiving side communication devices 21 to 24 are also installed in the vicinity of the connected information distribution devices 51 to 54. And the distance used as the reference | standard of the transfer determination in each receiving side communication apparatus 21-24 is the distance between the installation point of the transmission side communication apparatus 10, and the installation point of each receiving side communication apparatus 21-24, and each reception It is set based on the distance between the installation points of the side communication devices 21 to 24. Alternatively, the distance between the installation point of the event detection device 40 connected to the transmission side communication device 10 and the installation point of the information distribution devices 51 to 54 connected to the reception side communication devices 21 to 24, and The distance between the installation points of the information distribution apparatuses 51 to 54 may be used as a reference.
[0022]
Hereinafter, the operation of such a traffic information providing system will be described step by step.
First, the transmission side communication device 10 receives a detection signal from the connected event detection device 40 (step S1). Then, event information is generated based on the detection signal, and the event information is transmitted through the communication line 30 to a predetermined receiving-side communication device (step S2). Here, the transmission side communication device 10 transmits the event information to, for example, the reception side communication device existing within a certain distance. Here, as an example, transmission is made to the receiving side communication devices 21 and 22.
[0023]
When receiving the event information from the transmitting side communication device 10 through the communication line 30, the receiving side communication device 21 refers to the distance table 21a and determines whether to transfer this event information (step S3). Here, for example, a distance limit value is stored in the distance table 21a for each type of event information, and when the distance from the place where the event occurs is equal to or less than the limit value, it is determined to transfer. In this case, for example, in the case of event information that needs to be notified only to a vehicle traveling near the place where the event occurred, the limit value of the distance is set small. As such event information, the presence / absence of an approaching vehicle at an intersection with poor visibility can be considered. In the case of event information to be notified to a vehicle traveling relatively far from the place where the event occurred, the distance limit value is set to be large. Examples of such event information include traffic jam information, road regulation information due to construction, and the like.
[0024]
If it is determined that the received event information is to be transferred, the receiving-side communication device 21 outputs this event information to the information distribution device 51 (step S4). The information distribution device 51 receives the output event information and distributes it to the vehicle 2 on the road 1. The vehicle 2 includes a terminal device that receives the distributed information and displays the information on a display, for example, or outputs the information as audio information to notify the driver of the information.
[0025]
Further, the receiving side communication device 21 determined to transfer transfers the received event information to the other receiving side communication device determined in advance through the communication line 30 (step S5). Here, the reception side communication device 21 transfers the event information to the reception side communication device existing within a certain distance range, for example, as with the transmission side communication device 10. Here, as an example, the data is transferred to the receiving communication device 23.
[0026]
Thereafter, the receiving side communication device 23 that has received the event information similarly performs the transfer determination, and when it is determined to transfer the event information, it distributes the event information to the vehicle through the information distribution device 53 and receives, for example, a predetermined reception. Event information is transferred to the side communication device 24.
[0027]
In the traffic information providing system as described above, the transmission side communication device 10 and the reception side communication devices 21 to 24 are connected to each other by the communication line 30 and, for example, directly between the communication devices without going through the center. Event information is transmitted to. For this reason, redundancy occurs in the communication path of the event information, and the resistance of the system to the occurrence of a failure is improved.
At the same time, the delay time from the occurrence of the event to the delivery to the vehicle can be shortened. For example, the transmission side communication device 10 and each of the reception side communication devices 21 to 24 transfer the event information only to other reception side communication devices existing within a certain distance range, thereby making it closer to the place where the event occurred. As the vehicle travels within the distance range, the event information is distributed in a shorter time, and the real-time property of the information to be provided is improved.
[0028]
Each of the receiving side communication devices 21 to 24 determines whether to transfer the received event information to other receiving side communication devices based on the distance from the place where the event occurred and the type of event information. By doing so, it becomes possible to provide information to the vehicle accurately according to the event that has occurred. For example, in the distance table 21a, a distance limit value is stored for each type of event information, and when the distance from the event occurrence location exceeds the limit value, it is determined that the transfer is not performed. Here, a small limit value is set for event information that needs to be distributed only within a narrow range from the place of occurrence, and a large limit value is set for event information that should be distributed over a wide range. Such transfer determination makes it possible to reliably and quickly distribute event information only to an area that needs to be distributed. Further, unnecessary event information is not transmitted in the communication line 30, and the event information transfer and transfer determination processing are executed in a distributed manner in the system, so that the communication line 30 can be used effectively, and as a result In addition, the information update period can be shortened and the real-time property of information provision can be improved.
[0029]
Next, an embodiment of the present invention will be specifically described.
FIG. 2 is a diagram illustrating a system configuration example according to the first embodiment of the present invention.
The traffic information providing system shown in FIG. 2 has a configuration in which a plurality of communication servers 101 to 106 and a center 200 are connected to each other via a network 300. The communication servers 101 to 106 are connected to road sensors 101a to 106a and communication beacons 101b to 106b, respectively.
[0030]
The road sensors 101a to 106a detect the occurrence of an event on the road and supply detection signals to the communication servers 101 to 106, respectively. For example, the road sensors 101a to 106a detect the traffic jam situation based on the presence or absence of the vehicles 401 to 403 on the road and their travel speeds. Alternatively, for example, one of the presence / absence of a fallen object on the road, the presence / absence of freezing, the weather condition such as weather and temperature, and the vehicle approach condition at an intersection with poor visibility are detected.
[0031]
The communication beacons 101b to 106b transmit the information output from the communication servers 101 to 106 to the vehicle 401 equipped with the information terminal 401a among the vehicles on the road using wireless communication or infrared communication. The information terminal 401a is configured by, for example, a car navigation system, and has a function of receiving information from the communication beacons 101b to 106b and notifying the driver by displaying the received information on a display or outputting sound. Have. It is assumed that the vehicle 401 equipped with such an information terminal 401a actually travels a lot on the road.
[0032]
The communication servers 101 to 106 receive detection signals from the connected road sensors 101a to 106a, generate event information, and transfer the event information to the center 200 and adjacent communication servers through the network 300. Here, an adjacent communication server (hereinafter referred to as an adjacent server) means a communication server existing within a certain distance from the transfer source communication server. In particular, it is desirable that communication servers connected to road sensors and communication beacons provided on the same road are adjacent servers.
[0033]
Moreover, when each communication server 101-106 receives event information through the network 300, based on the various information added to the received information, each communication server 101-106 delivers event information to vehicles through the communication beacons 101b-106b connected to itself. And whether to transfer the event information to the adjacent communication server is determined. This determination is made based on the distance from the event occurrence point, the elapsed time since the occurrence, and whether or not the event information has already been received. Then, only when it is determined that distribution and transfer are to be performed, the received event information is output to the connected communication beacons 101b to 106b and transmitted to the vehicle, and is transferred to the adjacent communication server.
[0034]
Here, the communication servers 101 to 106, the road sensors 101a to 106a and the communication beacons 101b to 106b respectively connected thereto are basically installed at relatively close positions. For example, in the case of a road sensor that detects a vehicle entering an intersection with poor visibility, a communication beacon is installed at a vehicle stop position immediately before the intersection on another road that intersects the road where the road sensor is installed. . In this case, the communication server may be installed in a proximity position of the road sensor and the communication beacon, or may be provided in a housing integrated with either the road sensor or the communication beacon.
[0035]
The center 200 receives event information from all the communication servers 101 to 106 connected to the network 300, and holds these pieces of information centrally. Further, the received event information is transferred to all communication servers other than the transmission source, or necessary communication servers according to the type of the event information, the position of the communication server that is the event detection source, and the like.
[0036]
The network 300 is configured by, for example, a dedicated line using an optical fiber or the like.
In this traffic information providing system, for example, it is possible to supply traffic information determined by visual observation by a staff member or road regulation information due to construction or the like to the communication servers 101 to 106 and transmit them as event information. . In this case, for example, instead of the road sensors 101a to 106a, each piece of information is supplied to the communication servers 101 to 106 by an input operation of a staff member.
[0037]
In addition, when a communication beacon capable of two-way communication with a vehicle is used, the function of the road sensor is added to the communication beacon by acquiring information such as traveling speed from the vehicle and supplying it to the communication server. May also be used.
[0038]
As described above, the communication servers 101 to 106 shown in the present embodiment have a configuration having functions corresponding to both the transmission side communication device 10 and the reception side communication devices 21 to 24 shown in FIG. Yes. Note that a number of these communication servers 101 to 106 are actually provided together with the road sensors 101a to 106a and the communication beacons 101b to 106b to be connected. In addition, although the communication servers 101 to 106 and the center 200 are connected to each other via the network 300, the communication servers 101 to 106 actually communicate only with adjacent servers other than the center 200. In FIG. 2, the connection relationship between the devices in the network 300 is represented by connecting the adjacent servers and the centers thereof with a dotted line.
[0039]
Next, FIG. 3 is a block diagram showing an example of the internal configuration of the communication server 101 used in the first embodiment of the present invention. The other communication servers 102 to 106 are also realized by the same internal configuration.
[0040]
As illustrated in FIG. 3, the communication server 101 includes a communication processing unit 111, a detection signal receiving unit 112, a transfer determination processing unit 113, a beacon output unit 114, and a timer unit 115. The transfer determination processing unit 113 is connected to a reception history table 113a, a server distance table 113b, a limit distance table 113c, and a limit time table 113d.
[0041]
The communication processing unit 111 is connected to the network 300 and transmits / receives event information to / from other communication servers and the center 200. When receiving event information through the network 300, the communication processing unit 111 supplies this event information to the transfer determination processing unit 113. Also, the event information received from the transfer determination processing unit 113 is transmitted to the designated communication server or center 200. As will be described later, the event information is transmitted and received with various information such as a transfer source server ID and a detection source server ID added thereto.
[0042]
The detection signal receiving unit 112 receives the detection signal from the road sensor 101 a, generates event information indicating the occurrence of the event, and supplies the event information to the transfer determination processing unit 113.
The transfer determination processing unit 113 determines whether or not to transfer event information supplied from the communication processing unit 111 or the detection signal receiving unit 112, and transfers the event information to a necessary functional block. At this time, the reception time table 113a, the inter-server distance table 113b, the limit distance table 113c, the limit time table 113d, and the current time information from the time measuring unit 115 are referred to as necessary.
[0043]
When the transfer determination processing unit 113 receives the event information from the detection signal receiving unit 112, the transfer determination processing unit 113 outputs this information to the beacon output unit 114. At the same time, information such as the current time information from the time measuring unit 115, a server ID for identifying the communication server 101 itself, an event type, and the like are added, and the adjacent server and the center 200 are designated as transfer destinations, and communication processing The data is output to the unit 111 and transferred.
[0044]
In addition, when event information is received from the communication processing unit 111, event information that should be distributed and transferred with reference to information added to the event information, information in each table, and current time information from the time measuring unit 115 It is determined whether or not. If it is determined that it should be performed, the event information is output to the beacon output unit 114, the adjacent server is designated as the destination, and the additional information is output to the communication processing unit 111 to be transferred to the destination communication server. At this time, the additional information is updated and transferred.
[0045]
The beacon output unit 114 outputs the event information supplied from the transfer determination processing unit 113 to the communication beacon 101b and distributes it to the traveling vehicle. The time measuring unit 115 measures the current time and notifies the transfer determination processing unit 113 at any time.
[0046]
Next, each table connected to the transfer determination processing unit 113 will be specifically described.
The reception history table 113 a is a table that holds a history of event information received through the network 300. A unique event information ID is added to all event information when it is transferred from the detection source communication server. In the reception history table 113a, the event information ID added to the received event information is recorded as needed. When the event information is received through the network 300, the transfer determination processing unit 113 refers to the event information to determine whether the event information has been received before.
[0047]
Next, FIG. 4 is a diagram illustrating an example of data stored in the inter-server distance table 113b.
The distance between the communication server 101 and the adjacent server is stored in the inter-server distance table 113b. Here, a unique server ID is assigned to each of the communication servers 101 to 106 connected to the network 300, and in the inter-server distance table 113b, the distance to the adjacent server is the server ID indicating the adjacent server. It is classified.
[0048]
Next, FIG. 5 is a diagram illustrating an example of data stored in the limit distance table 113c.
As illustrated in FIG. 5, the limit distance table 113c holds a limit distance that is a basis for event information transfer determination for each type of event information. Here, the limit distance indicates, for each type of event information, the upper limit of the range in which event information should be transmitted starting from the place where the event occurred. For example, road traffic congestion information, construction / regulation information, and the like are information that should be notified to vehicles traveling in a relatively wide range, and therefore the limit distance is set to be long. On the other hand, information on vehicles approaching at poorly sighted points such as intersections, falling object information in front of the road, etc. is information that should be notified to vehicles located within a short distance from these detection points. Because there is no need to notify this vehicle, the limit distance is set short.
[0049]
Next, FIG. 6 is a diagram illustrating an example of data stored in the limit time table 113d.
As illustrated in FIG. 6, the limit time table 113 d holds a limit time that is a basis for event information transfer determination for each type of event information. Here, the limit time indicates the upper limit of the elapsed time for transmitting the event information for each type of event information, with the occurrence time of the event as a reference. For example, the approaching vehicle information and the forward falling object information at the poor visibility point need to be notified immediately to the vehicles approaching these detection points, and there is no point in notifying after a long time has passed. Therefore, the limit time is set short. By setting the time limit in this way, for example, when it takes a long time to transmit event information due to an increase in the amount of communication on the network 300 or the occurrence of a trouble in the device, unnecessary information is notified to the vehicle. Or being sent out on the network 300.
[0050]
Next, information transmitted on the network 300 will be described.
FIG. 7 is a diagram illustrating event information transmitted on the network 300 and its additional information.
[0051]
When each of the communication servers 101 to 106 transmits event information on the network 300, various additional information 320 is added together with the event information 310, as shown in FIG. The additional information 320 includes a detection source server ID 321, a transfer source server ID 322, an event information type 323, an event information ID 324, an event occurrence time 325, and a transmission cumulative distance 326.
[0052]
The detection source server ID 321 receives the detection signal from the connected road sensor, generates event information, and indicates the server ID of the communication server that has transmitted. The transfer source server ID 322 indicates the server ID of the direct transmission source of the received event information. For example, when event information from the detection source communication server 101 is transmitted to the communication server 102, the transfer source server for the communication server 102 is the communication server 101. When event information from the communication server 101 that is the detection source is transmitted to the communication server 103 via the communication server 102, the transfer source server for the communication server 103 is the communication server 102.
[0053]
The event information type 323 is information for identifying the type of event information, and corresponds to “event information type” that is a classification item in the limit distance table 113c and the limit time table 113d. The event information ID 324 indicates an identification number uniquely given to each event information.
[0054]
The event occurrence time 325 indicates the time when the event occurred. Actually, event information based on a detection signal detected by the road sensor is approximately set by the time transmitted from the communication server connected to the road sensor.
[0055]
The transmission cumulative distance 326 is information obtained by accumulating the distance between the communication servers through which the event information has passed from the detection source communication server to the immediately preceding transfer source communication server, and is stored in the inter-server distance table 113b. Calculated based on information. As described above, since the communication servers 101 to 106 and the road sensors 101a to 106a and the communication beacons 101b to 106b connected to each of the communication servers 101 to 106 are installed close to each other, the transmission cumulative distance 326 indicates the event detection location. It is information which shows the distance from the delivery place to a vehicle approximately.
[0056]
Next, processing in the communication server will be described using a flowchart. In addition, since each communication server 101-106 performs the same process, only the communication server 101 is demonstrated here.
[0057]
FIG. 8 is a flowchart showing the flow of processing in the communication server 101 when an event is detected.
[Step S801] A detection signal from the road sensor 101a is received. When this detection signal is received, the detection signal receiving unit 112 generates event information indicating the occurrence of the event and supplies the event information to the transfer determination processing unit 113. It should be noted that the detection signal from the road sensor 101a is output only when an event occurs, for example, or periodically, according to the type of event information.
[0058]
[Step S802] The transfer determination processing unit 113 generates additional information about event information received from the detection signal receiving unit 112. Here, a unique identification number is set as the event information ID, and an identification number indicating the communication server 101 itself is set in the detection source server ID and the transfer source server ID. Also, the current time information is acquired from the time measuring unit 115 and set as the event occurrence time. Further, “0” is set as the value of the transmission cumulative distance. At this time, the set event information ID may be stored in the reception history table 113a.
[0059]
[Step S <b> 803] The transfer determination processing unit 113 outputs the generated event information to the beacon output unit 114. The beacon output unit 114 outputs this event information to the connected communication beacon 101b. Thereby, event information is delivered to a vehicle.
[0060]
[Step S804] The transfer determination processing unit 113 refers to the inter-server distance table 113b, and extracts adjacent servers that are designated as transfer destinations. Then, the generated event information and additional information are output to the communication processing unit 111, and an adjacent server (for example, the communication servers 102 and 106 here) and the center 200 are designated as a transfer destination. As a result, the event information and the additional information are transmitted over the network 300 by the communication processing unit 111 and received by the adjacent server and the center 200.
[0061]
When the center 200 receives the event information and the additional information, the center 200 accumulates the information therein and transfers the information to all communication servers on the network 300 excluding the detection source server or to necessary communication servers. For example, the center 200 stores distance information between all communication servers, information on the limit distance for each event information, and the like, determines a communication server that needs to be transferred according to the received event information, Event information and additional information may be transferred to the server.
[0062]
Next, FIG. 9 is a flowchart showing a flow of processing in the communication server 101 when event information is received through the network 300.
[Step S901] The communication processing unit 111 receives event information together with additional information through the network 300. These pieces of information are supplied to the transfer determination processing unit 113.
[0063]
[Step S902] The transfer determination processing unit 113 searches the reception history table 113a to determine whether or not the event information ID written in the received additional information exists in the reception history table 113a. If it exists, the process ends. If it does not exist, the process proceeds to step S903.
[0064]
[Step S903] The transfer determination processing unit 113 adds the event information ID in the received additional information to the reception history table 113a.
[Step S904] The transfer determination processing unit 113 calculates a distance (here, D) from the detection source server. First, the server distance table 113b is searched, and the distance to the communication server indicated by the transfer source server ID in the received additional information is extracted. Then, the distance D from the detection source server is obtained by adding this distance to the transmission cumulative distance in the additional information.
[0065]
[Step S905] The transfer determination processing unit 113 searches the limit distance table 113c and extracts a limit distance corresponding to the event information ID in the additional information. Then, the magnitude relationship between the extracted limit distance and the distance D from the detection source server is compared. Here, if the distance D exceeds the limit distance, the process is terminated. If the distance D is within the limit distance, the process proceeds to step S906.
[0066]
[Step S906] Next, the transfer determination processing unit 113 calculates an elapsed time (here, T) since the event was detected. First, current time information is acquired from the time measuring unit 115. Then, the elapsed time T is obtained by calculating the difference between this time and the event occurrence time in the received additional information.
[0067]
[Step S907] The transfer determination processing unit 113 searches the limit time table 113d and extracts a limit time corresponding to the event information ID in the additional information. Then, the magnitude relationship between the extracted limit time and the elapsed time T from the event occurrence time is compared. Here, when the elapsed time T exceeds the limit time, the process is terminated. If the elapsed time T is within the limit time, the process proceeds to step S908.
[0068]
[Step S908] The transfer determination processing unit 113 updates the distance D calculated in Step S905 described above by writing it in the transmission cumulative distance of the additional information. In addition, the server ID indicating the communication server 101 itself is written and updated in the transfer source server ID of the additional information.
[0069]
[Step S909] The transfer determination processing unit 113 outputs the received event information to the beacon output unit 114. The beacon output unit 114 outputs this event information to the communication beacon 101b, whereby the event information is distributed to the vehicle through the communication beacon 101b.
[0070]
[Step S910] The transfer determination processing unit 113 refers to the inter-server distance table 113b, and extracts adjacent servers that are designated as transfer destinations. Here, the transfer source adjacent server is excluded from the transfer destination. Then, the received event information and the additional information updated in step S908 are output to the communication processing unit 111. As a result, the event information and the additional information are transferred by the communication processing unit 111 to the adjacent servers (here, the communication servers 103 and 104) through the network 300.
[0071]
By performing the above processing in each of the communication servers 101 to 106, event information is sequentially transferred between adjacent servers. Each of the communication servers 101 to 106 connected to each other by the network 300 is configured to distribute only necessary event information, distribution to the vehicle, and other information based on the distance from the occurrence location of the event, the elapsed time from the occurrence time, and the reception history. Transfer to the communication server. The necessity of delivery and transfer is based on the limit distance and limit time set according to the type of event information, so event information should be provided within a more appropriate area and time according to the content of the event. Can do. At the same time, the transmission amount of useless information in the network 300 is reduced, and the communication line is effectively used. As a result, the event information update period can be shortened, and it is possible to provide highly real-time information within a necessary area. In addition, a large number of road sensors can be installed to collect a large amount of basic information of traffic information, and detected event information can be provided over a wider range through the network 300.
[0072]
In addition, the event information distribution and transfer process is performed by autonomous operation of each of the interconnected communication servers 101 to 106, so that, for example, a specific communication server or communication path has failed due to a failure or the like. Even in this case, the entire system does not stop, delay of information provision and loss of information can be suppressed to the minimum, and system resistance is increased. In addition, since the determination processing for distribution and transfer is distributed in each communication server, the processing efficiency is increased and the event information update period is shortened.
[0073]
Further, by providing the center 200, all the generated event information can be collected and managed in the center 200, and wide area information can also be efficiently provided. Furthermore, by making it possible to transfer all event information from the center 200, an effect of further improving the system resistance is also produced.
[0074]
By the way, in the above 1st Embodiment, although the case where the communication server and the road sensor were installed fixedly on the road was demonstrated, by mounting these on a vehicle and carrying out wireless communication between vehicles It is also possible to transfer event information. Hereinafter, a traffic information providing system in such a case will be described.
[0075]
FIG. 10 is a diagram showing a system configuration example according to the second embodiment of the present invention. In the traffic information providing system shown in FIG. 10, communication servers 501a to 505a, sensors 501b to 505b and driver terminals 501c to 505c connected thereto are mounted on each of the plurality of vehicles 501 to 505. A center 600 capable of communicating with each of the vehicles 501 to 505 is provided, and each of the vehicles 501 to 505 and the center 600 are connected to each other by a wireless communication line 700.
[0076]
Each of the sensors 501b to 505b detects the state of the road running from the vehicle and supplies detection signals to the communication servers 501a to 505a, respectively. Alternatively, for example, information indicating the traveling state of the vehicle such as the traveling speed and the distance to the vehicle ahead is supplied to the communication servers 501a to 505a.
[0077]
The communication servers 501a to 505a generate event information based on information from the connected sensors 501b to 505b, supply the event information to the connected driver terminals 501c to 505c, and to communication servers on other vehicles. The data is transferred through the wireless communication line 700. At this time, it may be transmitted to the center 600 at the same time. In addition, when the communication servers 501a to 505a receive event information from other communication servers through the wireless communication line 700, notifications to the driver and other information are received according to the elapsed time from the event occurrence and the distance from the occurrence location. It is determined whether or not to transfer to the vehicle. And when it determines with performing these, while supplying event information to the connected driver terminals 501c-505c, it transfers to another communication server through the wireless communication line 700. FIG.
[0078]
The driver terminals 501c to 505c include information output devices such as displays, for example, receive event information from the communication servers 501a to 505a, output the event information, and notify the driver.
[0079]
As in the case of the first embodiment, the center 600 receives event information from each of the communication servers 501a to 505a and manages it centrally, and forwards event information to the necessary communication servers. It is also possible to do. Moreover, you may have a function which receives and processes 1 type of event information from the communication server of a some vehicle, produces | generates and distributes event information.
[0080]
In such a traffic information providing system, road conditions are detected by a large number of vehicles traveling on the road, so that a large amount of basic data of traffic information can be efficiently collected. For example, when each communication server 501a to 505a receives event information through the wireless communication line 700, based on the elapsed time from the occurrence of the event, the information is notified to the driver and to other communication servers. By determining whether or not to perform the transfer, it is possible to reliably provide event information to a necessary driver.
[0081]
Furthermore, for example, each vehicle is equipped with a GPS (Global Positioning System), etc., and the current position information of the vehicle is notified to the center as needed, or a plurality of centers are provided, and each center exists in an area where communication is possible. The communication servers 501a to 505a may be able to recognize adjacent communication servers (communication servers existing within a predetermined distance range) by managing the communication servers. In this case, as in the case of the first embodiment described above, each of the communication servers 501a to 505a communicates with only the center 600 and the adjacent server, and is notified of information based on the distance from the event occurrence location. By determining the transfer, only necessary information is transmitted to the wireless communication line 700, so that network resources can be used efficiently.
[0082]
As in the above embodiment, a communication server that performs wireless communication from the vehicle and a communication server that is fixedly installed and performs wired communication, as in the first embodiment, It is also possible to construct a traffic information provision system.
[0083]
(Supplementary note 1) In a traffic information providing system that provides traffic information to a vehicle traveling on a road,
An event detection device for detecting an event occurring on the road;
In response to a detection signal from the event detection device, a transmission side communication device that transmits event information indicating the occurrence of the event;
A plurality of information delivery devices for delivering information to vehicles traveling on the road;
A plurality of receiving-side communication devices that connect to each of the information distribution devices and distribute the received event information;
A communication line that mutually connects the transmitting communication device and the receiving communication devices;
Consisting of
The transmission side communication device transmits the event information to the predetermined reception side communication device through the communication line,
When receiving the event information through the communication line, the receiving-side communication device determines whether to transfer the event information based on the distance from the event occurrence location and the type of the event information. If it is determined and transferred, the event information is output to the connected information distribution device to be distributed to the vehicle, and is transferred to the other predetermined receiving side communication device through the communication line. To
A traffic information provision system characterized by this.
[0084]
(Supplementary Note 2) When the receiving communication device determines to transfer the received event information, the receiving communication device transmits the event information to other receiving communication devices existing within a certain distance. The traffic information providing system according to claim 1, wherein the traffic information is transferred through the communication line.
[0085]
(Additional remark 3) The said transmission side communication apparatus adds the distance information which shows the transfer distance of the said event information on the said communication line with the said event information, and transmits,
When the receiving communication device receives the event information, the receiving communication device adds a distance from the transmitting communication device of the transmission destination or another receiving communication device of the transfer source to the distance information, and the added distance Whether to transfer the event information based on the information is determined, and if it is determined to transfer, the added distance information is added to the event information and transferred through the communication line. The traffic information providing system according to appendix 1.
[0086]
(Additional remark 4) The said receiving side communication apparatus is equipped with the distance table holding the distance with the said transmitting side communication apparatus connected with the said communication line, and another said receiving side communication apparatus, and receives the said event information. The traffic information provision according to appendix 3, wherein a distance from the transmission-side communication device of the transmission destination or another transfer-side communication device of the transfer source is extracted from the distance table and added to the distance information system.
[0087]
(Supplementary Note 5) When the receiving communication device determines to transfer the received event information, the receiving communication device refers to the distance table to other receiving communication devices existing within a certain distance range. The traffic information providing system according to appendix 4, wherein the event information is transferred through the communication line.
[0088]
(Supplementary Note 6) When the receiving side communication device receives the event information through the communication line, in addition to the event occurrence location and the type of the event information, The traffic information providing system according to appendix 1, wherein it is determined whether or not the event information is to be transferred based on the elapsed time.
[0089]
(Additional remark 7) The center connected to the said communication line is further provided,
The traffic information providing system according to claim 1, wherein the transmission side communication device transmits the event information to the center together with the predetermined reception side communication device.
[0090]
(Supplementary Note 8) The center transfers the event information received through the communication line to all the receiving side communication devices through the communication line.
The traffic information providing system according to appendix 7, wherein
[0091]
(Supplementary note 9) In a traffic information providing system for providing traffic information to a vehicle traveling on a road,
Having an event detection device for detecting an event that has occurred on the road, and a transmitting-side mobile station mounted on the vehicle;
A plurality of receiving-side mobile stations mounted on a vehicle different from the vehicle, comprising an information notification device for notifying the driver of information;
A wireless communication line interconnecting the transmitting mobile station and each receiving mobile station;
Consisting of
The transmitting mobile station receives a detection signal from the event detecting device, and transmits event information indicating the occurrence of the event to the receiving mobile station through the wireless communication line,
When receiving the event information through the wireless communication line, the receiving-side mobile station notifies the driver of the event information based on an elapsed time from the occurrence of the event and the type of the event information. If it is determined whether or not to notify, the information notification apparatus notifies the driver of the occurrence of the event, and the event information is transmitted to the other mobile station on the receiving side. Forward over the line,
A traffic information provision system characterized by this.
[0092]
(Supplementary note 10) Event information indicating the occurrence of an event on a road is acquired, and the acquired event information is output to an information distribution device that distributes the information to a vehicle traveling on the road. In the traffic information providing method using the information communication device to be distributed to
Connecting a plurality of the information communication devices to each other through a communication line;
Each of the information communication devices
Receiving the event information through the communication line;
Determine whether to transfer the event information based on the distance from the event occurrence location and the type of the event information,
When it is determined to be transferred, the event information is output to the connected information distribution device and distributed to the vehicle, and is transferred to the other receiving side communication device determined in advance through the communication line.
A traffic information providing method characterized by that.
[0093]
(Supplementary Note 11) In a traffic information providing device that provides traffic information through an information distribution device to a vehicle traveling on a road based on information from a plurality of other communication devices connected through a communication line,
A vehicle-side information transmission unit for transmitting event information indicating the occurrence of an event on a road to the information distribution device and distributing the information to the vehicle;
A line-side information transmitting / receiving unit that transmits and receives the event information through the communication line;
Whether or not to transfer the event information based on the distance from the event occurrence location and the type of the event information when the event information is received through the communication line by the line-side information transmitting / receiving unit When the event information is determined to be transferred, the vehicle-side information transmission unit is controlled to transmit the received event information to the information distribution device, and the received event information is predetermined. A transfer control processing unit that controls the line-side information transmitting / receiving unit to transfer to the communication device through the communication line;
A traffic information providing apparatus characterized by comprising:
[0094]
【The invention's effect】
As described above, in the traffic information system of the present invention, the event information is directly transmitted through the communication line from the transmission side communication device to the reception side communication device and between the reception side communication devices. Redundancy occurs in the information communication path, and the tolerance of the system to the occurrence of failure is enhanced. Also, each receiving side communication device determines whether or not to transfer event information based on the distance from the place where the event occurred and the type of event information. For example, according to the type of event information, By controlling to transfer to other receiving side communication devices existing within the range, unnecessary information is prevented from flowing on the communication line, and the transmission efficiency of information is improved. Therefore, it becomes possible to accurately provide information to the vehicle according to the event that has occurred, and the information update period can be shortened, and the real-time property of information provision is enhanced.
[0095]
Further, in the traffic information providing device of the present invention, a plurality of traffic information providing devices having similar configurations as communication devices on the communication line are connected through the communication line, so that event information is communicated between the traffic information providing devices. Therefore, the event information communication path is redundant, and the system resistance to the occurrence of a failure is enhanced. Further, the traffic information providing device determines whether to transfer the event information based on the distance from the place where the event occurred and the type of the event information. For example, a range of a certain distance according to the type of the event information. By controlling to forward to other traffic information providing devices existing in the network, unnecessary information is prevented from flowing on the communication line, and the information transmission efficiency is improved. Therefore, it becomes possible to accurately provide information to the vehicle according to the event that has occurred, and the information update period can be shortened, and the real-time property of information provision is enhanced.
[Brief description of the drawings]
FIG. 1 is a principle diagram for explaining the principle of the present invention.
FIG. 2 is a diagram showing a system configuration example according to the first embodiment of the present invention.
FIG. 3 is a block diagram showing an example of the internal configuration of a communication server used in the first embodiment of the present invention.
FIG. 4 is a diagram illustrating an example of data stored in an inter-server distance table.
FIG. 5 is a diagram illustrating an example of data stored in a limit distance table.
FIG. 6 is a diagram illustrating an example of data stored in a limit time table.
FIG. 7 is a diagram showing event information and its additional information transmitted on the network.
FIG. 8 is a flowchart showing a flow of processing in the communication server when an event is detected.
FIG. 9 is a flowchart showing a flow of processing in a communication server when event information is received through a network.
FIG. 10 is a diagram illustrating a system configuration example according to a second embodiment of the present invention.
[Explanation of symbols]
1 road
2 Vehicle
10 Transmission side communication device
21-24 Receiving side communication device
21a Distance table
30 Communication line
40 Event detection device
51-54 Information distribution device
101-106 communication server
101a-106a road sensor
101b-106b communication beacon
200 center
300 network
401-403 vehicle
401a Information terminal

Claims (5)

In a traffic information providing system that provides traffic information to vehicles traveling on a road,
An event detection device for detecting an event occurring on the road;
In response to a detection signal from the event detection device, a transmission side communication device that transmits event information indicating the occurrence of the event;
A plurality of information delivery devices for delivering information to vehicles traveling on the road;
A plurality of receiving-side communication devices that connect to each of the information distribution devices and distribute the received event information;
The transmission side communication device and each reception side communication device are mutually connected, and the communication line that connects the reception side communication devices to each other ;
Consisting of
The transmission side communication device transmits the event information to the predetermined reception side communication device through the communication line,
When each of the receiving side communication devices receives the event information from the transmitting side communication device through the communication line , and when receiving the event information from another receiving side communication device , Determine whether to transfer the event information based on the distance from the event occurrence location and the type of the event information, and if it is determined to transfer, the event information is connected to the connected The information is distributed to the vehicle by outputting to the information distribution device, and transferred to the other receiving side communication device determined in advance through the communication line.
A traffic information provision system characterized by this.   If it is determined that the received event information is to be transferred, the receiving communication device transmits the event information to the other receiving communication device existing within a certain distance through the communication line. 2. The traffic information providing system according to claim 1, wherein the information is transferred. In a traffic information providing system that provides traffic information to vehicles traveling on a road,
An event detection device for detecting an event occurring on the road;
In response to a detection signal from the event detection device, a transmission side communication device that transmits event information indicating the occurrence of the event;
A plurality of information delivery devices for delivering information to vehicles traveling on the road;
A plurality of receiving-side communication devices that connect to each of the information distribution devices and distribute the received event information;
The transmission side communication device and each reception side communication device are mutually connected, and the communication line that connects the reception side communication devices to each other ;
Consisting of
The transmission side communication device transmits the event information to the predetermined reception side communication device through the communication line,
When each of the receiving side communication devices receives the event information from the transmitting side communication device through the communication line , and when receiving the event information from another receiving side communication device , When determining whether to transfer the event information based on the distance from the place where the event occurred, the type of event information, and the elapsed time since the event occurred, In addition, the event information is output to the connected information distribution device and distributed to the vehicle, and transferred to the other predetermined communication device on the receiving side through the communication line.
A traffic information provision system characterized by this. In a traffic information providing device that provides traffic information through an information distribution device to a vehicle traveling on a road based on information from a plurality of other communication devices connected to each other through a communication line,
A vehicle-side information transmission unit for transmitting event information indicating the occurrence of an event on a road to the information distribution device and distributing the information to the vehicle;
A line-side information transmitting / receiving unit that transmits and receives the event information through the communication line;
When the event information is received from the transmission side communication device that is the detection source of the event through the communication line by the line side information transmitting / receiving unit , and the event information is received from the other traffic information providing device. When received, it is determined whether or not to transfer the event information based on the distance from the place where the event occurred and the type of the event information. Controlling the vehicle-side information transmission unit so as to transmit the event information to the information distribution device, and transferring the received event information to another predetermined traffic information providing device via the communication line. A transfer control processing unit for controlling the line side information transmitting / receiving unit,
A traffic information providing apparatus characterized by comprising: In a traffic information providing device that provides traffic information through an information distribution device to a vehicle traveling on a road based on information from a plurality of other communication devices connected to each other through a communication line,
A vehicle-side information transmission unit for transmitting event information indicating the occurrence of an event on a road to the information distribution device and distributing the information to the vehicle;
A line-side information transmitting / receiving unit that transmits and receives the event information through the communication line;
When the event information is received from the transmission side communication device that is the detection source of the event through the communication line by the line side information transmitting / receiving unit , and the event information is received from the other traffic information providing device. When received, it is determined whether or not to transfer the event information based on the distance from the event occurrence location, the type of the event information, and the elapsed time since the occurrence of the event and, when determining to transfer, and controls the vehicle-side information transmitting unit to transmit the event information received in the information distribution apparatus, predetermined addition to the said event information received A transfer control processing unit for controlling the line side information transmitting / receiving unit to transfer to the traffic information providing apparatus through the communication line;
A traffic information providing apparatus characterized by comprising:

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