JP4228790B2 - Navigation system and program - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a navigation system and a program.
[0002]
[Prior art]
Conventionally, in a navigation device, for example, a current position of a vehicle, that is, a current position, is detected by GPS (Global Positioning System), and a rotation angular velocity of a vehicle detected by a gyro sensor, that is, based on a turning angle, The direction of the vehicle, that is, the vehicle direction is detected, map data is read from the data recording unit, a map screen is formed on the display unit, and the current location, a map around the current location, and the vehicle direction are displayed on the map screen. It is displayed. Therefore, the driver who is an operator can drive the vehicle according to the current location displayed on the map screen, the map around the current location, and the direction of the vehicle.
[0003]
Further, when the driver inputs a destination and sets search conditions, a route from the departure point to the destination represented by the current location is searched based on the search conditions. The searched route, that is, the searched route is displayed together with the current location and the destination on the searched route display screen formed on the display unit. Therefore, the driver can drive the vehicle according to the displayed search route.
[0004]
By the way, the navigation device includes a communication unit, and a navigation system is provided that can communicate with an information center via the communication unit and acquire information such as news while driving a vehicle. (For example, refer to Patent Document 1).
[0005]
In the navigation system, for example, the navigation device and an information center are connected, and the information center transmits the information to the navigation device. When the navigation device receives the information, the navigation device forms a predetermined display screen on the display of the display unit, and displays the information on the display screen using characters, images, and the like.
[0006]
[Patent Document 1]
JP 2001-109771 A
[0007]
[Problems to be solved by the invention]
However, in the conventional navigation system, when the information is transmitted, the navigation device automatically forms a predetermined display screen and displays the information on the display screen. It is difficult to recognize the provided information when the driver is concentrating on the operation of the vehicle, the understanding of the surrounding situation, etc., as in the case of traveling at a point where the course is to be changed.
[0008]
It is an object of the present invention to provide a navigation system and a program that can solve the problems of the conventional navigation system and can easily recognize provided information.
[0009]
[Means for Solving the Problems]
Therefore, in the navigation system of the present invention, a current location detection processing unit that detects the current location, an information acquisition processing unit that acquires a plurality of information, and a suppression that sets a suppression range for suppressing the provision of information on the travel route. When the range setting processing means, the information selection processing means for selecting predetermined information from the plurality of information, and determining whether the current location is within the suppression range, and the current location is not within the suppression range, When the provision of the selected information is finished, it is determined whether or not the current location is within the suppression range, and when the current location is within the suppression range when the provision of the selected information is finished, the selected information is excluded. Among other information, suppression condition determination processing means for determining whether or not there is information whose current location does not fall within the suppression range when the provision of information ends, and the current location is said suppression. Information provision suppression that suppresses information provision when there is no information whose current location does not fall within the restriction range when the provision of information is completed, among other information excluding the selected information, if within the range The present location is suppressed when the provision of information is completed, among the processing means and when the present location does not fall within the suppression range when the provision of the selected information is finished, and other information excluding the selected information And information provision processing means for providing information when there is information not within the range.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0017]
FIG. 1 is a block diagram of a navigation system according to the first embodiment of the present invention.
[0018]
In the figure, 61 is a personal computer as a user terminal, 62 is an information center as an information provider, and the personal computer 61 and the information center 62 are connected via a network 43. The information center 62 establishes a site for providing various types of information in addition to the navigation data representing the navigation information on the server of a predetermined provider.
[0019]
Reference numeral 14 denotes a navigation device as an in-vehicle device mounted on a vehicle. The navigation device 14 includes a navigation processing unit 17, a data recording unit 16 as an information recording unit, a communication unit 38, and the like. The navigation device 14, the network 43, the personal computer 61, the information center 62, etc. constitute a navigation system.
[0020]
The personal computer 61 includes a CPU 71 as an arithmetic device and a control device, a display unit 72 as a notification device for notifying an operator of various information, an operation unit 73, a recording device 74, a communication unit 75, and the like. The communication unit 75 includes a modem (not shown) for connecting the personal computer 61 to the server 63, an access point (not shown) for connecting the personal computer 61 to the navigation device 14 via the communication unit 38, and the like.
[0021]
In the present embodiment, the CPU 71 is used as the arithmetic device and the control device, but an MPU or the like can be used instead of the CPU 71. The display unit 72 may be a display such as a CRT display, a liquid crystal display, or a plasma display.
[0022]
As the operation unit 73, a keyboard, a mouse or the like can be used, a touch panel formed on the display, a barcode reader, a remote control device for remote operation, a joystick, a light pen, a stylus pen. Etc. can also be used. In the touch panel, an operation area such as various keys, switches, and buttons is formed on the display, and input can be performed by touching (pressing) the operation area.
[0023]
The recording device 74 includes an internal storage device such as a RAM, a ROM, and a flash memory, and an external storage device such as a hard disk as a recording medium. As the external storage device, a flexible disk, magnetic tape, magnetic drum, CD-ROM, CD-R, MD, DVD, optical disk, MO, IC card, optical card, memory card, etc. may be used instead of the hard disk. it can. In order to use the external storage device, the recording device 74 is provided with a reading device for reading data recorded in the external storage device and a writing device for recording data.
[0024]
In the present embodiment, a personal computer 61 is used as the user terminal. Instead of the personal computer 61, an electronic notebook, a mobile phone, a mobile terminal, a PDA (personal personal digital assistant), a television set is used. A device that can be connected to the network 43 and can perform two-way communication, such as a telephone or a game machine, can also be used.
[0025]
The information center 62 includes a server 63, a database (DB) 64 that is connected to the server 63 and records navigation data. The database 64 includes a map data file in which map data for displaying a map is recorded, a search data file in which search data for searching for a route is recorded, and a facility data file in which facility data relating to various facilities are recorded. Etc. A data file such as a road data file, an intersection data file, and a node data file is formed in the map data file, and road data representing information on each road (road link) is stored in the road data file. Intersection data representing information is recorded in the node data file, and node data representing node point information set along each road is recorded. The map data, search data, facility data, etc. constitute navigation data.
[0026]
As the road data, data representing the width, slope, cant, bank, road surface condition, number of road lanes, places where the number of lanes decreases, places where the width becomes narrower, crossings, etc. However, regarding the corner, the data indicating the radius of curvature, the intersection, the T-junction, the entrance and the exit of the corner, etc., the road attribute, the data indicating the downhill road, the uphill road, etc., the road type, the national road, the prefectural road, the narrow street In addition to general roads, etc., data representing expressways and toll roads such as expressways, city expressways, and toll roads are recorded. In addition, for highway / toll roads, data indicating the entrance and exit attachment roads (rampways), toll gates, etc. are recorded.
[0027]
Further, as the node data, actual road branch points (including intersections, T-junctions, etc.), node point coordinates (positions) set for each road according to a radius of curvature, etc. Data representing node point links connecting the node points, the height (altitude) of each node point, and the like are recorded.
[0028]
And as the said facility data, the data showing facilities, such as a hotel of each area, a gas station, a parking lot, and a tourist facility, are recorded. The database 64 also records audio output data for outputting predetermined information by an audio output unit (not shown) of the navigation device 14.
[0029]
By the way, the information center 62 is a traffic information transmission center as a traffic information provider among information providers, for example, a congestion information transmitted from a VICS (Vehicle Information and Communication System) center (not shown). In addition to traffic information consisting of various information such as regulation information, parking lot information, traffic accident information, service area congestion status, etc., receive general information such as news, weather forecasts, emails, etc. as other information providers Image information such as television programs transmitted from broadcast stations, content distributors, etc., as well as music information such as music programs, etc. can be received, and the traffic information, general information, image information , Various information such as music information, text data, audio data, image data Can be sent directly to the personal computer 61 via the network 43 in a data format, or once (once) recorded in the database 64 and then sent to the personal computer 61 via the network 43. .
[0030]
Further, a statistical data file (not shown) is formed in the database 64, and past traffic information, general information, etc. are recorded as statistical data in time series as historical data, and past traffic information, general information, etc. Data is processed and predetermined processing is performed to generate processing data. In creating the statistical data, detailed conditions such as date and time, day of the week, weather, various events, seasons, facility information (whether there are large facilities such as department stores and supermarkets) are included in the history information as necessary. Is added or general information is referred to.
[0031]
The information center 62 may be any one of an individual, a company, a group, a local government, a government related organization, and the like. The information center 62 creates the navigation data by itself or purchases it from another information creator and distributes it.
[0032]
The network 43 includes a LAN (Local Area Network), a WAN (Wide Area Network), an intranet, a cellular phone line network, a telephone line network, a public communication line network, a dedicated communication line network, a communication line network such as the Internet, etc. Various communication means consisting of can be used. It is also possible to use communication means using CS broadcasting, BS broadcasting, terrestrial digital television broadcasting, FM multiplex broadcasting, etc. by a broadcasting satellite. Furthermore, it is possible to use communication means such as a non-stop automatic toll payment system (ETC) and a boundary communication system (DSRC) that are used in an intelligent road traffic system (ITS). The personal computer 61, the server 63, the provider server, the navigation processing unit 17 and the like function as a computer based on a predetermined program, data, and the like independently or in combination of two or more.
[0033]
Next, the navigation device 14 having the above configuration will be described.
[0034]
FIG. 2 is a diagram for explaining the navigation device according to the first embodiment of the present invention.
[0035]
In the figure, reference numeral 14 denotes a navigation device. The navigation device 14 includes a current location detection processing unit 15 that detects a current location, a data recording unit 16 in which various data are recorded, and various calculations based on input information. A navigation processing unit 17 that performs processing, an input unit 34 as a first operation unit, a display unit 35 as a first information providing unit that provides various information to an operator, and a voice input unit as a second operation unit 36. A voice output unit 37 and a communication unit 38 are provided as a second information providing unit for providing various information to the operator. A vehicle speed sensor 41 is connected to the navigation processing unit 17.
[0036]
The current location detection processing unit 15 includes a GPS 21 as a current location detection unit, a geomagnetic sensor 22, a distance sensor 23, a steering sensor 24, a gyro sensor 26 as an orientation detection unit, an altimeter (not shown), and the like.
[0037]
The GPS 21 detects the current location of the vehicle on the earth by receiving radio waves generated by an artificial satellite, the geomagnetic sensor 22 detects the vehicle direction by measuring the geomagnetism, and the distance sensor 23 detects a distance between predetermined positions on the road. Examples of the distance sensor 23 include a sensor that measures the rotational speed of a wheel (not shown) and detects a distance based on the rotational speed, a sensor that measures acceleration, integrates the acceleration twice, and detects a distance. Can be used.
[0038]
The steering sensor 24 detects a rudder angle, and the steering sensor 24 is, for example, an optical rotation sensor, a rotation resistance sensor, or a wheel attached to a rotating portion of a steering wheel (not shown). An angle sensor or the like is used.
[0039]
The gyro sensor 26 detects a turning angle. As the gyro sensor 26, for example, a gas rate gyro, a vibration gyro, or the like is used. Further, by integrating the turning angle detected by the gyro sensor 26, the vehicle direction can be detected.
[0040]
The GPS 21 can detect the current location independently. Then, the distance detected by the distance sensor 23 is combined with the vehicle direction detected by the geomagnetic sensor 22 or the turning angle detected by the gyro sensor 26, or the distance detected by the distance sensor 23 and the steering sensor The present location can also be detected by combining with the steering angle detected by 24.
[0041]
The navigation processing unit 17 includes an arithmetic unit that controls the entire navigation device 14 and a CPU 31 as a control unit, a RAM 32 that is used as a working memory when the CPU 31 performs various arithmetic processes, a control program, and the like. As a recording medium for a database for recording navigation data transferred from a personal computer 61, a ROM 33 in which various programs for searching a route to a destination, route guidance, determination of a specific section, etc. are recorded An internal storage device such as a flash memory 30 is provided. The navigation processing unit 17 is connected to the input unit 34, the display unit 35, the voice input unit 36, the voice output unit 37, and the communication unit 38. A semiconductor memory, a magnetic core, or the like is used as the RAM 32, ROM 33, flash memory 30, or the like. An MPU or the like can be used instead of the CPU 31 as the arithmetic device and the control device.
[0042]
The data recording unit 16 can set an external storage device and a hard disk (not shown) as a recording medium, read a predetermined program, data, etc. recorded on the hard disk, A recording head (not shown) is provided as a driver for writing the data.
[0043]
In the present embodiment, a hard disk is used as the external storage device and the storage medium. In addition to the hard disk, a magnetic disk such as a flexible disk can be used as the external storage device. Also, a memory card, magnetic tape, magnetic drum, CD, MD, DVD, optical disk, MO, IC card, optical card, etc. can be used as an external storage device.
[0044]
In the present embodiment, various programs are recorded in the ROM 33 and various data are recorded in the data recording unit 16. However, the programs, data, and the like are stored in the same external storage device, memory, and the like. It can also be recorded on a card or the like, or a program, data or the like can be read from the memory card or the like and written into the flash memory 30. Further, the program, data, etc. can be updated by exchanging a memory card or the like. When an automatic transmission control device is mounted to control an automatic transmission (not shown) mounted on the vehicle, the control program, data, etc. for the automatic transmission control device are also recorded on the hard disk. can do.
[0045]
The input unit 34 is for correcting the current location at the start of traveling, inputting a departure point as a guidance start point and a destination as a guidance end point, and operating the communication unit 38. It consists of operation switches (not shown) such as various keys, switches and buttons. As the input unit 34, a keyboard, a mouse, a barcode reader, a remote control device for remote operation, a joystick, a light pen, a stylus pen, or the like can be used. Furthermore, the input unit 34 may be configured by operation switches (not shown) such as various keys, switches, and buttons displayed as images on a screen formed on a display (not shown) of the display unit 35. In that case, an input is performed by touching the operation switch.
[0046]
Various screens formed on the display include operation guidance, operation menu, key guidance, search route from the current location to the destination, guidance information along the search route, traffic information, news, weather forecast, The time, mail, TV program, FM multiplex broadcast radio program, and the like are displayed. As the display unit 35, a display such as a CRT display, a liquid crystal display, or a plasma display can be used, or a hologram device that projects a hologram on a windshield of a vehicle can be used.
[0047]
The voice input unit 36 includes a microphone (not shown) and the like, and can input necessary information by voice. Furthermore, the voice output unit 37 includes a voice synthesizer and a speaker (not shown), and the search route, guidance information, and the like are output from the voice output unit 37 as, for example, voice synthesized by the voice synthesizer. . In addition to the voice synthesized by the voice synthesizer, various kinds of sound, various kinds of guidance information recorded in advance on a tape, a memory, etc. can be outputted as voice.
[0048]
The communication unit 38 includes traffic information including information such as traffic congestion information, regulation information, parking lot information, traffic accident information, and service area congestion transmitted from the traffic information transmission center, for example, the VICS center. In addition to the traffic information, a beacon receiver as a first receiving device that receives as a radio beacon, an optical beacon, etc. An FM receiver as a second receiving device that receives FM multiplex information including information such as a weather forecast as FM multiplex broadcast via an FM broadcast station is provided. The beacon receiver and the FM receiver are unitized and arranged as a VICS receiver, but may be arranged separately.
[0049]
The communication unit 38 can also receive various data such as D-GPS information for detecting the detection error of the GPS 21. Note that position information can be received based on a radio wave beacon, an optical beacon, or the like, and the current location can be detected. In this case, the beacon receiver functions as a current location detection unit.
[0050]
The navigation device 14 and the personal computer 61 (FIG. 1) are connected by a wireless LAN so that bidirectional communication can be performed. For this reason, an access point is allocated to the communication unit 75 as described above. In addition, a slot (not shown) such as a PCMCIA slot and a PC card slot is formed in the communication unit 38, and a radio card (not shown) is inserted into the slot. In this embodiment, the navigation device 14 and the personal computer 61 are connected by a wireless LAN. In other embodiments, the navigation device 14 and the personal computer 61 are connected by a wired LAN. Is done. In this case, a hub (not shown) is disposed in the communication unit 75, and the hub and the communication unit 38 are detachably connected by a cable.
[0051]
Next, the operation of the navigation system having the above configuration will be described.
[0052]
First, when the operator operates, for example, the operation unit 73 (FIG. 1) of the personal computer 61 and sends an information acquisition request to the information center 62, the information acquisition processing means of the server 63 in the information center 62 performs information acquisition processing. The map data and the like are read with reference to the map data file and the like in the database 64, and information such as traffic information and general information is read and acquired from the database 64. Further, information such as image information and music information is read from the database 64 as necessary based on an information acquisition request from the operator.
[0053]
When the operator inputs the departure point and the destination, the search condition setting processing means (not shown) of the CPU 71 performs a search condition setting process, sets the departure point and the destination as the search conditions, and sets the search conditions to the information center. 62. In addition, instead of the personal computer 61, for example, a PDA or the like is used as the user terminal, and a GPS card can be set in a slot such as a PCMCIA slot or PC card slot of the PDA. It is also possible to set the current location detected by the GPS card.
[0054]
In the information center 62, when the search condition is received by the server 63, the information acquisition processing means of the server 63 performs information acquisition processing, reads the search data with reference to the search data file of the database 64, By reading the statistical data with reference to the data file and reading the traffic information transmitted from the VICS center, information necessary for searching the route is acquired.
[0055]
Subsequently, search processing means (not shown) of the server 63 performs search processing, searches for a route based on search data, traffic information, statistical data, etc. according to the search conditions, route data representing the search route, search route Map data representing a map of the surrounding area, voice output data for guiding the searched route by the voice output unit 37, and the like are output as route guidance data. The route data includes road data (road type, road attribute, etc.) constituting the searched route.
[0056]
Thus, when various types of information are acquired by the server 63, an information transmission processing unit (not shown) of the server 63 performs an information transmission process, and is acquired by the information acquisition processing unit in addition to the route guidance data. The information is transmitted to the personal computer 61.
[0057]
Then, when the route guidance data and information are transmitted in the personal computer 61, the reception processing means (not shown) of the CPU 71 performs reception processing, receives the route guidance data and information, and subsequently the information not shown of the CPU 71. The recording processing means performs information recording processing, downloads the route guidance data and information to the hard disk of the recording device 74, and records them.
[0058]
By the way, when the vehicle is accommodated in the garage, for example, the operator operates the operation unit 73 to transfer (transmit) the route guidance data and information downloaded to the hard disk to the navigation device 14, For example, it can be recorded in the flash memory 30 (FIG. 2) in the navigation processing unit 17.
[0059]
For this purpose, when the operator operates the operation unit 73 to command activation of the navigation device 14, a navigation device activation processing unit (not shown) of the CPU 71 performs navigation device activation processing and powers on the navigation device 14. Then, the navigation device 14 is activated. Subsequently, an information transfer processing unit (not shown) of the CPU 71 performs an information transfer process, reads the route guidance data and information from the hard disk, and transfers them to the navigation device 14. Accordingly, in the navigation device 14, the information acquisition processing unit (not shown) of the CPU 31 performs information acquisition processing, receives and acquires the route guidance data and information transferred from the navigation device 14, and the CPU 31 is not shown. The information recording processing means performs information recording processing and records the route guidance data and information received from the personal computer 61 in the flash memory 30.
[0060]
When the route guidance data and information are recorded in the flash memory 30, the navigation device stop processing means (not shown) of the CPU 71 performs the navigation device stop processing, stops the navigation device 14, and uses the route guidance data and information. Transition to a possible state, that is, a standby state. In transferring the route guidance data and information from the personal computer 61 to the navigation device 14, the route guidance data and information can be compressed as necessary to reduce the data size.
[0061]
In the present embodiment, route guidance data is transmitted from the information center 62 to the personal computer 61. In other embodiments, the route guidance data is recorded in advance in the data recording unit 16 of the navigation device 14. Is done. In that case, there is no need to transmit route guidance data from the information center 62 to the personal computer 61 or transfer route guidance data from the personal computer 61 to the navigation device 14.
[0062]
In this case, it is not necessary to perform the search process in the information center 62, and the search process is performed in the navigation device 14. That is, when the operator operates the input unit 34 to input a departure point and a destination, a search condition setting processing unit (not shown) of the CPU 31 performs a search condition setting process and sets the departure point and the destination as search conditions. Then, the information acquisition processing unit (not shown) of the CPU 31 performs information acquisition processing, reads the search data with reference to the search data file of the data recording unit 16, and searches for the route by reading the traffic information transmitted from the VICS center. Get the information you need to
[0063]
A search processing unit (not shown) of the CPU 31 performs a search process, searches for a route based on search data, traffic information, etc. according to the search conditions, and uses route data, map data, voice output data, etc. as route guidance data. Output.
[0064]
In other embodiments, other information such as general information, image information, and music information can be directly transmitted from the information center 62 to the navigation device 14. In that case, the information acquisition processing means of the CPU 31 receives and acquires information transmitted from the information center 62.
[0065]
In the present embodiment, the route guidance data and information downloaded to the hard disk of the recording device 74 are recorded in the flash memory 30 by transferring them to the navigation device 14 via the wireless LAN. However, in another embodiment of the present invention, route guidance data and information downloaded to the hard disk of the recording device 74 are temporarily recorded on a memory card or the like, and the memory card is set in the data recording unit 16 of the navigation device 14. Similarly, the data is recorded on the hard disk or the like of the data recording unit 16.
[0066]
Next, the operation of the navigation device 14 when driving the vehicle will be described.
[0067]
FIG. 3 is a flowchart showing the operation of the navigation device in the first embodiment of the present invention, FIG. 4 is a diagram for explaining the suppression range in the first embodiment of the present invention, and FIG. 5 is the first diagram of the present invention. It is a figure which shows operation | movement of the information provision suppression process in embodiment.
[0068]
In this case, the information acquisition processing means of the CPU 31 (FIG. 2) reads the route guidance data and information transferred from the personal computer 61 (FIG. 1) in advance when the vehicle is accommodated in a garage, for example. Receive and get.
[0069]
When the ignition switch (not shown) of the vehicle is turned on, the navigation device 14 is activated, and the navigation initialization processing means (not shown) of the CPU 31 performs navigation initialization processing and is detected by the current location detection processing unit 15. The current position and the vehicle direction detected by the gyro sensor 26 are read, and various data are initialized. The matching processing means (not shown) of the CPU 31 performs matching processing, and based on the trajectory of the read current location and the shape, arrangement, etc. of each road link constituting the surrounding road, The current location is specified by determining whether the current location is located.
[0070]
Subsequently, display processing means (not shown) of the CPU 31 performs display processing, forms a map screen on the display unit 35, and displays a map around the current location on the map screen according to the map data of the information. At the same time, the current location and the vehicle direction are displayed on the map. Therefore, for example, the driver who is the operator can drive the vehicle according to the surrounding map displayed on the map screen, the current location, and the vehicle direction.
[0071]
When the vehicle is driven according to the searched route, route guidance processing means (not shown) of the CPU 31 performs route guidance processing, reads the route guidance data of the information from the hard disk of the data recording unit 16, and the route guidance data In addition to the surrounding map, the current location, and the vehicle direction, the search route around the current location is displayed on the map screen, and the driver is notified of the searched route by voice from the voice output unit 37 to guide the route. I do.
[0072]
Therefore, the driver can drive the vehicle according to the search route displayed on the map screen and voiced in addition to the surrounding map, the current location, and the vehicle direction displayed on the map screen.
[0073]
By the way, for information other than the information used for displaying the surrounding map, the search route, etc. on the map screen among the information acquired by the information acquisition processing means, for example, the vehicle has started running Later, it can be provided to the driver by displaying it on an information providing screen or by outputting a voice. Of the information, news, weather forecast, music information, etc. are, for example, in the form of audio data, e-mail etc., for example, in the form of text data, and traffic information, for example, in the form of still image data, The image information or the like is provided to the driver in a moving image data format, for example.
[0074]
However, for example, when the driver is concentrating on operating the vehicle, grasping the surrounding situation, etc., as in the case of traveling at a point where the course is changed, information is automatically provided, It will be difficult for the driver to recognize the information provided.
[0075]
Therefore, an information provision processing unit (not shown) of the CPU 31 performs information provision processing, determines whether or not a predetermined condition for suppressing the provision of information is satisfied, and suppresses the provision of information when the predetermined condition is satisfied. If the predetermined condition is not satisfied, information is provided.
[0076]
Therefore, the suppression range setting processing unit (not shown) of the CPU 31 performs the suppression range setting process, and as shown in FIG. 4, the range for suppressing the provision of information on the travel route Rt, that is, the suppression range ARi ( i = 1, 2,...) is set and recorded in the RAM 32 (FIG. 2).
[0077]
In the present embodiment, as the vehicle passes through a predetermined point, it is assumed that the driver concentrates on the operation of the vehicle, the understanding of the surrounding situation, etc., for example, the course is changed when the vehicle passes. A predetermined range area before and after the intersection to be performed, a predetermined range area before the crossing through which the vehicle passes, a predetermined range area before and after the intersection without a signal, and the like are set as the suppression range ARi.
[0078]
In addition to the searched route, the travel route Rt is read by referring to the statistical data, and a route predicted to travel the vehicle based on the past travel history, that is, a travel prediction route. included. Further, a road route that is predicted that the vehicle travels like a road based on a road type, a road attribute, and the like is also included.
[0079]
In FIG. 4, pi (i = 1, 2,...) Is an intersection where a course is changed when the vehicle passes, and the suppression range ARi is set before and after the intersection pi. Each suppression range ARi is specified by the coordinates of a passage start point Sp that represents a point at which the vehicle enters the suppression range ARi and the coordinates of a passage end point Ep that represents a point to escape from the suppression range ARi. Each suppression range ARi can also be specified by the coordinates of the passage start point Sp and the distance from the passage start point Sp.
[0080]
Subsequently, a suppression condition determination processing unit (not shown) of the CPU 31 performs a suppression condition determination process, and determines whether or not the first suppression condition is satisfied depending on whether or not the current location is within the suppression range ARi. When the first suppression condition is satisfied and the current location is within the suppression range ARi, the information provision suppression processing unit (not shown) of the CPU 31 performs the information provision suppression processing and provides information until the current location leaves the suppression range ARi. do not do.
[0081]
In addition, when the first suppression condition is not satisfied and the current location is not within the suppression range ARi, the information selection processing unit (not shown) of the CPU 31 stores predetermined information of each information recorded on the hard disk. select.
[0082]
Subsequently, the suppression condition determination processing means performs a suppression condition determination process to determine whether or not the second suppression condition is satisfied, whether or not the current location falls within the suppression range ARi when the provision of the selected information ends. Judgment by. When the second suppression condition is satisfied and the current location falls within the suppression range ARi when the provision of the selected information is finished, the suppression condition determination processing unit further determines whether the third suppression condition is satisfied. Of the other information, the determination is made based on whether there is any other information that does not fall within the suppression range ARi when the provision of the information ends.
[0083]
Whether or not the first suppression condition is satisfied is determined based on the current location, the coordinates of the passage start point Sp, the passage end point Ep, and the like. Whether the second and third suppression conditions are satisfied is determined based on the vehicle speed V, the distance from the current location to the passage start point Sp, the data size indicating the amount of information, the processing speed of the CPU 31, and the like. .
[0084]
When the third suppression condition is satisfied and there is no other information that does not fall within the suppression range ARi when the provision of information is completed, the information provision suppression processing means determines that the current location is within the suppression range ARi. Do not provide information until you leave.
[0085]
Further, when the third suppression condition is not satisfied and there is other information that does not fall within the suppression range ARi when the provision of information is completed, the information provision suppression processing unit is selected. The information is changed to information that does not fall within the suppression range ARi when the provision of information ends.
[0086]
Then, when the second suppression condition is not satisfied and the present location does not fall within the suppression range ARi when the provision of the selected information is finished, and the third suppression condition is not satisfied, and the selected information is changed. In this case, the information provision processing means (not shown) of the CPU 31 performs information provision processing and provides the selected information or changed information to the driver.
[0087]
For this purpose, the display processing means forms an information providing screen on the display unit 35, displays the selected information or changed information on the information providing screen, and outputs the information by the audio output unit 37. To do.
[0088]
For example, in FIG. 5, BW is the vehicle, Pr is the current location, and P1 is the point where the suppression condition determination process is performed. The suppression condition determination processing means performs a suppression condition determination process at the point P1, and determines whether or not the first suppression condition is satisfied based on whether or not the current location Pr is within the suppression range ARi. In this case, since the current location Pr is not within the suppression range ARi, the first suppression condition is not satisfied, and the information selection processing unit selects predetermined information from the information recorded on the hard disk.
[0089]
Subsequently, the suppression condition determination processing means determines whether or not the second suppression condition is satisfied depending on whether or not the current location Pr falls within the suppression range ARi when the provision of the selected information ends.
[0090]
Here, when the vehicle BW moves in the direction of the arrow A with the provision of the selected information, the vehicle BW does not reach the passage start point Sp when the provision of the selected information is finished, and the current location Pr is It does not reach the suppression range ARi. That is, the second suppression condition is not satisfied. Therefore, the information provision processing means provides the selected information to the driver.
[0091]
Further, when the vehicle BW moves in the direction of the arrow B with the provision of the selected information, the vehicle BW has reached the passage start point Sp when the provision of the selected information is finished, and the current location Pr is The suppression range ARi is applied. That is, the second suppression condition is satisfied. Therefore, the suppression condition determination processing means further determines whether or not the third suppression condition is satisfied based on whether or not there is any other information that does not fall within the suppression range ARi when the provision of information ends.
[0092]
As described above, in the present embodiment, since the suppression range ARi is set in order to suppress the provision of information, in the suppression range ARi, the provision of information is suppressed, and the driver operates the vehicle. Information is not provided when concentrating on grasping the situation.
[0093]
Since the information is provided when the driver does not need to concentrate on the operation of the vehicle, the understanding of the surrounding situation, etc., the provided information can be easily recognized.
[0094]
In addition, when the point related to the suppression range ARi is a guide point, the guide point is displayed for a while before the vehicle reaches the guide point, or the guidance of the guide point is output by voice. The load applied to the CPU 31 increases. Therefore, when information is provided in the suppression range ARi, the load applied to the CPU 31 is further increased. However, in the present embodiment, since provision of information is suppressed in the suppression range ARi, it is possible to prevent the load applied to the CPU 31 from increasing.
[0095]
In addition, the information acquisition processing means is configured to receive and acquire information transferred from the personal computer 61 or information transmitted from the information center 62 in advance before the vehicle starts running. It is possible to reliably determine whether the first to third suppression conditions are satisfied. Therefore, the driver can easily recognize the provided information.
[0096]
Next, a flowchart will be described.
Step S1 Read information.
Step S2 A suppression range setting process is performed.
Step S3: It is determined whether or not it is within the suppression range ARi. If it is within the suppression range ARi, the process proceeds to step S4. If it is not within the suppression range ARi, the process proceeds to step S5.
Step S4: Information is not provided until the control range ARi is exited, and the process ends.
Step S5: It is determined whether or not the suppression range ARi is applied when the provision of the selected information is finished. If the suppression information ARi is applied when the selected information is finished, the process proceeds to step S6. If the information does not reach the suppression area ARi, the process proceeds to step S8.
Step S6: Determine whether there is any other information that does not fall within the suppression range ARi when the provision of information ends. If there is no other information that does not fall within the suppression range ARi when the provision of information ends, the process proceeds to step S4.
Step S7: The information is changed.
Step S8: Information is provided and the process is terminated.
[0097]
By the way, in the present embodiment, the suppression range ARi is set over a predetermined distance with respect to a preset point. In other embodiments, the suppression range ARi passes through the suppression range ARi. It is possible to change the point according to various passage conditions at the time of changing, or to change the distance of the suppression range ARi, that is, the suppression distance Lr.
[0098]
Therefore, a suppression distance change processing unit (not shown) of the suppression range setting processing unit performs a suppression distance change process, acquires a passage condition when passing through the suppression range ARi, and suppresses based on the acquired passage condition. The distance Lr is changed.
[0099]
For example, regarding the passage condition in the road type, in the case of a highway / toll road such as an expressway, a city expressway, a toll road, etc., the suppression distance Lr of the suppression range ARi is set to a certain distance ΔL1 (in this embodiment, the suppression distance Lr is increased by 20 [%]). Further, in the case of national roads, prefectural roads, etc. of ordinary roads, the suppression distance Lr is increased by a distance ΔL2 (10% of the suppression distance Lr in the present embodiment) shorter than the distance ΔL1.
[0100]
As for the passage conditions in the traffic jam situation, the time required for the vehicle to pass through the suppression range ARi based on the traffic jam information, that is, the transit time is predicted, and the transit time becomes longer due to the traffic jam. The suppression distance Lr is increased by a certain distance.
[0101]
And about the passage conditions in traffic conditions, based on traffic information other than traffic jam information, the passage time required for a vehicle to pass through the suppression range ARi is predicted, and when the passage time becomes long, the suppression distance Lr Is increased by a certain distance.
[0102]
As for the passage condition in the weather condition, in the case of bad weather, for example, rainy weather, the suppression distance Lr of the suppression range ARi is increased by a certain distance ΔL3 (in this embodiment, 20 [%] of the suppression distance Lr). To do.
[0103]
Further, regarding the passage condition at the time, in the early morning or evening, the suppression distance Lr of the suppression range ARi is increased by a certain distance ΔL4 (in this embodiment, 10 [%] of the suppression distance Lr), In this case, the suppression distance Lr of the suppression range ARi is increased by a certain distance ΔL5 (in this embodiment, 20 [%] of the suppression distance Lr).
[0104]
And about the passage conditions in the travel history, the passage time required to pass through the suppression range ARi is predicted based on the traffic information, and when the passage time becomes long, the suppression distance Lr is set to a certain distance. Lengthen.
[0105]
Furthermore, with respect to the predetermined passage condition, a point where the suppression range ARi is set can be deleted or added.
[0106]
As described above, since the point where the suppression range ARi is set can be changed according to various passage conditions, or the suppression distance Lr of the suppression range ARi can be changed, the provision of information is reliably suppressed in the suppression range ARi. can do.
[0107]
Next, a second embodiment in which the suppression distance Lr of the suppression range ARi can be changed according to the vehicle speed V will be described.
[0108]
FIG. 6 is a diagram showing the operation of the information provision suppression process in the second embodiment of the present invention.
[0109]
In the figure, Rt is a travel route, and the suppression range ARi (i = 11, 12,..., 21, 22,..., 31, 32,...) Is set before and after the intersection pi.
[0110]
As shown in the figure, when the vehicle speed V is low, the suppression distance Lr is increased as in the suppression ranges AR11, AR12,..., And when the vehicle speed V is medium, it is suppressed as in the suppression ranges AR21, AR22,. When the distance Lr is moderate and the vehicle speed V is high, the suppression distance Lr is shortened as in the suppression ranges AR31, AR32,.
[0111]
For this purpose, a suppression distance change processing unit (not shown) of the information provision suppression processing unit performs a suppression distance change process, reads the vehicle speed V, and changes the suppression distance Lr corresponding to the vehicle speed V.
[0112]
Thus, since the suppression distance Lr is longer as the vehicle speed V is lower and the suppression distance Lr is shorter as the vehicle speed V is higher, the suppression range ARi can be made appropriate.
[0113]
In each of the above embodiments, the route guidance data and information are acquired in advance before the ignition switch is turned on, but in other embodiments, the ignition switch is turned on, When the navigation device 14 is activated, route guidance data and information are acquired.
[0114]
In addition, this invention is not limited to the said embodiment, It can change variously based on the meaning of this invention, and does not exclude them from the scope of the present invention.
[0115]
【The invention's effect】
As described above in detail, according to the present invention, the suppression range for suppressing the provision of information on the travel route is set, and the provision of information is suppressed based on the current location and the suppression range. No information is provided when the driver concentrates on the operation of the vehicle, grasping the surrounding situation, and the like.
[0116]
Since the information is provided when the driver does not need to concentrate on the operation of the vehicle, the understanding of the surrounding situation, etc., the provided information can be easily recognized.
[Brief description of the drawings]
FIG. 1 is a block diagram of a navigation system according to a first embodiment of the present invention.
FIG. 2 is a diagram illustrating a navigation device according to the first embodiment of the present invention.
FIG. 3 is a flowchart showing an operation of the navigation device according to the first embodiment of the present invention.
FIG. 4 is a diagram for explaining a suppression range in the first embodiment of the present invention.
FIG. 5 is a diagram illustrating an operation of an information provision suppression process in the first embodiment of the present invention.
FIG. 6 is a diagram illustrating an operation of an information provision suppression process according to the second embodiment of the present invention.
[Explanation of symbols]
15 Current location detection processing unit
31 CPU
ARi suppression range
BW vehicle
Lr suppression distance
Pr Current location
Rt travel route
V vehicle speed

Claims (3)

A current location detection processing unit that detects a current location; an information acquisition processing unit that acquires a plurality of information; a suppression range setting processing unit that sets a suppression range for suppressing provision of information in a travel route; and the plurality of pieces of information. Information selection processing means for selecting predetermined information and determining whether or not the current location is within the suppression range, and providing of the selected information ends when the current location is not within the suppression range If the current location falls within the suppression range when the provision of the selected information ends, the provision of information is included in other information excluding the selected information. Suppression condition determination processing means for determining whether there is no information whose current location does not fall within the suppression range when ending, and other information excluding the selected information when the current location is within the suppression range Location with, if there is no information that the current position is not applied to the restricted area when the providing information is completed, the inhibiting information providing suppression processing means of providing information, when the provision of selected information is completed among Information providing processing means for providing information when there is information that does not fall within the suppression range when the provision of information is completed, among other information excluding the selected information, navigation system, characterized in that it comprises and. Before SL suppression range navigation system according to claim 1 which is modified suppression range according weather or time zone when the vehicle passes. The computer selects the information acquisition processing means for acquiring a plurality of information, restricted area setting means for setting the restricted area to suppress the provision of information in the travel path, the predetermined information of the plurality of information When it is determined whether the current location detected by the information selection processing means and the current location detection processing unit is within the suppression range, and the provision of the selected information ends when the current location is not within the suppression range Judgment is made whether the current location falls within the suppression range, and if the current location falls within the suppression range when the provision of the selected information ends, the provision of information is completed among other information excluding the selected information Suppression condition determination processing means for determining whether there is no information whose current location does not fall within the suppression range, when the current location is within the suppression range, and excluding the selected information Among the information, if there is no information that the current position is not applied to the restricted area when the providing information is completed, suppressing information providing suppression processing means of providing information, and when the provision of selected information is completed Information provision that provides information when the current location does not fall within the suppression range and when there is information other than the selected information that does not fall within the suppression range when the information provision ends features and to pulp programs that function as processing means.

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