JP2015064830A - Information distribution system and information terminal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To appropriately provide a photographic image relating to a traffic congestion to a service user needing the photographic image when the traffic congestion occurs.SOLUTION: In an information terminal device 20, a photographic information generation unit 203 generates photographic information if it is determined that a vehicle 2 mounting the information terminal device 20 is caught in a traffic congestion, and a communication unit 230 transmits the photographic information to a centralized device 10 and receives traffic-congestion distribution information distributed from the centralized device 10 in response to a distribution request. In the centralized device 10, a traffic-congestion-distribution-information generation unit 103 generates the traffic-congestion distribution information including photographic images corresponding to planned travel points of the vehicle 2 mounting the information terminal device 20 transmitting the distribution request, on the basis of the photographic information collected by a photographic-information collection unit 101 and stored in a storage unit 120. A communication unit 130 distributes the generated traffic-congestion distribution information to the information terminal device 2 transmitting the distribution request.

Description

  The present invention relates to an information distribution system and an information terminal device.

  In recent years, traffic congestion has become more serious due to the increase in demand for road traffic and the inefficient use of cars. Generally, a traffic jam occurs when a traffic demand exceeding the traffic capacity flows into a bottleneck on the traffic capacity, and the vehicle train is connected with the bottleneck at the head. The main cause of such traffic congestion is a temporary decline in traffic capacity and concentration of traffic demand. Factors that temporarily reduce the traffic capacity include traffic accidents, broken cars and falling objects on the road, disasters, road construction, and the like. Further, the concentration of traffic demand occurs, for example, at intersections, parking lot entrances, junctions, toll gates, sags, tunnel entrances, and the like. As a result, traffic jams can occur throughout the city and suburbs.

  When a traffic jam occurs at a certain point on the road, there is a need for a driver of a vehicle who plans to travel at that point in advance to check the traffic jam status and cause. With respect to such needs, a technique for using an image taken by a camera mounted on another vehicle has been proposed. For example, in Patent Document 1, when the host vehicle and another vehicle approach each other, the host vehicle is photographed with a camera mounted on the other vehicle, the image data is uploaded to the center server, and the image data is received from the center server. An information processing system is disclosed.

JP2013-68426A

  The technique described in Patent Document 1 is mainly intended to easily acquire a captured image of a traveling vehicle, and therefore sufficiently satisfies the driver's needs when a traffic jam occurs as described above. I can't. That is, the conventional technology has a problem that when a traffic jam occurs, a captured image relating to the traffic jam cannot be appropriately provided to a necessary service user.

An information distribution system according to an aspect of the present invention includes a plurality of information terminal devices respectively mounted on a plurality of vehicles, and a concentration device that communicates with the plurality of information terminal devices. Each of the plurality of information terminal devices is acquired by the data acquisition unit that acquires vehicle information related to the host vehicle on which the information terminal device is mounted, and a captured image obtained by capturing the surroundings of the host vehicle, and the data acquisition unit. Based on the received vehicle information, a traffic jam determining unit that determines whether or not the host vehicle is involved in traffic jam, and the traffic jam judging unit determines that the host vehicle is caught in traffic jam, Based on vehicle information and the captured image, a shooting information generation unit that generates shooting information to be transmitted to the concentration device, and traffic congestion distribution information related to the planned travel point of the host vehicle is requested to the concentration device. A distribution request generating unit that generates a distribution request, shooting information generated by the shooting information generating unit, and a distribution request generated by the distribution request generating unit. A vehicle that transmits traffic to the centralized device and receives traffic congestion distribution information distributed from the centralized device in response to the distribution request; and the host vehicle based on the traffic congestion distribution information received by the communication unit. A display screen generating unit that generates a display screen including a captured image corresponding to the planned travel point and outputs the generated display screen to a display device mounted on the host vehicle. The central apparatus includes a photographing information collection unit that collects the photographing information transmitted from each of the plurality of information terminal devices, a storage unit that stores the photographing information collected by the photographing information collection unit, and the distribution request. A traffic jam distribution information generating unit that generates the traffic jam distribution information including a captured image corresponding to a planned travel point of a vehicle equipped with the transmitted information terminal device based on the shooting information stored in the storage unit, and the traffic jam distribution A distribution unit that distributes the traffic congestion distribution information generated by the information generation unit to the information terminal device that has transmitted the distribution request.
An information distribution system according to another aspect of the present invention includes a plurality of information terminal devices respectively mounted on a plurality of vehicles, and a concentration device that communicates with the plurality of information terminal devices. Each of the plurality of information terminal devices includes a data acquisition unit that acquires vehicle information related to the host vehicle on which the information terminal device is mounted, and a captured image obtained by capturing the surroundings of the host vehicle, the vehicle information, and the captured image. And generating a distribution request for requesting the centralized device for traffic congestion distribution information related to the planned travel point of the host vehicle. The distribution request generation unit, the shooting information generated by the shooting information generation unit and the distribution request generated by the distribution request generation unit are transmitted to the centralized device, and distributed from the centralized device in response to the distribution request. A communication unit that receives the traffic congestion distribution information, and a traffic forecast of the host vehicle based on the traffic congestion distribution information received by the communication unit. Generates a display screen including a captured image corresponding to the point, the and a display screen generation unit configured to output to a display device mounted on a vehicle. The concentration device includes a plurality of information terminal devices based on the photographing information collected by the photographing information collecting unit and the photographing information collecting unit that collects the photographing information transmitted from the plurality of information terminal devices, respectively. Of the shooting information collected by the shooting information collection unit, it is determined by the congestion determination unit that the vehicle is involved in the traffic jam. And storing the traffic jam distribution information including a captured image corresponding to a planned travel point of a vehicle equipped with the information terminal device that has transmitted the distribution request. The traffic jam distribution information generating unit that generates based on the captured image information, and the traffic jam distribution information generated by the traffic jam distribution information generating unit are transmitted to the distribution request. And a distribution unit for distributing the information terminal device.

  According to the present invention, when a traffic jam occurs, a captured image relating to the traffic jam can be appropriately provided to a necessary service user.

It is a figure which shows the structure of the information delivery system which concerns on the 1st Embodiment of this invention. It is a figure which shows the outline of the information delivery method by the information delivery system of this invention. It is a functional block diagram which shows the function structure of the concentration apparatus 10 and the information terminal device 20 in the 1st Embodiment of this invention. It is a flowchart of imaging | photography information transmission processing. It is a flowchart of an imaging information collection process. It is a flowchart of a delivery request transmission process. It is a flowchart of a traffic jam distribution information transmission process. It is a flowchart of a traffic jam distribution information reception process. It is a flowchart of selection notification information transmission processing. It is a flowchart of selection notification information reception processing. FIG. 6 is a sequence diagram when distributing traffic jam information from the concentration device 10 to the vehicle 2. It is a figure which shows an example of imaging | photography information. It is a figure which shows an example of a delivery request. It is a figure which shows an example of traffic congestion delivery information. It is a figure which shows an example of selection notification information. It is a figure which shows an example of the imaging | photography information accumulate | stored in collection data DB122. It is a figure which shows an example of the road map information stored in road map DB121. It is a figure which shows an example of the road map which road map information represents. It is a figure which shows an example of a display screen. It is a functional block diagram which shows the function structure of the concentration apparatus 10 and the information terminal device 20 in the 2nd Embodiment of this invention. It is a flowchart of imaging | photography information transmission processing. It is a flowchart of an imaging information collection process.

-Outline of the embodiment-
First, an outline of a typical embodiment of the invention disclosed in the present application will be described. Note that reference numerals in the drawings referred to with parentheses in the following outline description merely exemplify what are included in the concept of the component to which the reference numerals are attached.

[1] (Information distribution system that distributes traffic congestion information based on distribution requests)
An information distribution system according to a typical embodiment of the present invention includes a central apparatus (10), an information terminal apparatus (20), and a network (3). The information terminal device (20) transmits the photographing information and the distribution request to the concentration device (10). The concentration device (10) distributes the traffic congestion distribution information based on the distribution request from the information terminal device (20). As a result, the display device (40) can display information related to a traffic congestion point in a range in which the service user is paying attention.

[2] (Information terminal device that transmits shooting information to the centralized device when the vehicle is in a traffic jam)
An information terminal device (20) according to a representative embodiment of the present invention includes a traffic judgment unit (202) that judges whether or not the vehicle is in a traffic jam situation from the traveling status of the host vehicle, and a vehicle sensor device (50). From the image data DB (222) and the data acquisition unit (201) that acquires vehicle information related to the host vehicle from the image data DB (222), A shooting information generation unit (203) that generates shooting information based on the generated shooting information, and transmits the generated shooting information to the concentration device (10); By doing so, it is possible to collect shooting information under traffic conditions everywhere on the road.

[3] (Information terminal device in which vehicle transmits distribution request to centralized device)
The information terminal device (20) according to the representative embodiment of the present invention concentrates a distribution request including a range displayed on the display device (40) and vehicle information acquired from the vehicle sensor device (50). To (10). By doing so, the concentration device (10) can provide each vehicle with the traffic congestion distribution information based on the distribution request of each vehicle. According to this, since the transmission amount of the traffic jam distribution information from the centralized device (10) to the information terminal device (20) can be reduced, an increase in the communication amount can be suppressed.

[4] (Centralized device for receiving photographing information from information terminal device)
The concentration device (10) according to the representative embodiment of the present invention receives and accumulates the photographing information transmitted from the information terminal device (20). Therefore, the shooting information can be mutually used between the plurality of information terminal devices (20) via the central device (10). By doing so, the information terminal device (20) can share the information collected by the other information delivery devices (20).

[5] (Concentrated device that transmits traffic congestion distribution information based on distribution request)
The concentration device (10) according to the representative embodiment of the present invention transmits traffic jam distribution information to the information terminal device (20) in response to a distribution request from the information terminal device (20). According to this, it becomes possible to provide traffic congestion distribution information based on the distribution request of each vehicle.

-First embodiment-
Next, a specific example of the present invention will be described in detail below as a first embodiment.

<Outline of information distribution system>
FIG. 1 is a diagram showing a configuration of an information distribution system according to the first embodiment of the present invention. The information distribution system shown in FIG. 1 includes a central device 10 and information terminal devices 20 mounted on a plurality of vehicles 2, respectively.

  The centralized device 10 and the information terminal device 20 mounted on each vehicle 2 communicate via the network 3. The network 3 is configured by a wireless communication network such as a mobile phone line, a wired communication network such as the Internet, and the like.

  The central apparatus 10 includes an MPU 1900, a storage device 1910, and an input / output interface 1920.

  The storage device 1910 is configured using a storage medium such as an HDD (Hard Disk Drive) and a Flash SSD (Flash Solid State Drive). The storage device 1910 stores a processing program 1911, a road map data DB 121, and a collected data DB 122. The road map data DB 121 is a database storing map information. The collection data DB 122 is a database that stores the shooting information that is transmitted from each vehicle 2 to the concentration device 10 and collected by the concentration device 10.

  The MPU 1900 is an arithmetic device configured using a processor or the like. The MPU 1900 processes information received from the central device 10 by being transmitted from each vehicle 2 to the central device 10, and generates information to be distributed to each vehicle 2. Overall control for communication with each vehicle 2 is performed. The MPU 1900 reads the processing program 1911 stored in the storage device 1910, and implements various functions according to various instructions described in the processing program 1911. For example, a function for receiving shooting information transmitted from each vehicle 2, a function for receiving a distribution request transmitted from each vehicle 2 and distributing traffic jam distribution information, and the like are realized. Details of these will be described later.

  The vehicle 2 includes an information terminal device 20, a wireless communication device 30, a display device 40, a vehicle sensor device 50, a camera device 60, and a navigation device 70. In FIG. 1, the configuration is shown only for one vehicle 2 among the plurality of vehicles 2, but the other vehicles 2 have the same configuration. Hereinafter, the vehicle 2 having the configuration shown in FIG. 1 may be referred to as a host vehicle.

  Each component of the vehicle 2 shown in FIG. 1 may be realized as an individual device. Or you may implement | achieve with the sensor device, LED device, wireless device, etc. which were mounted in apparatuses, such as a smart phone and a mobile telephone.

  The information terminal device 20 includes an MPU 1930, a storage device 1940, and an input / output interface 1950.

  The storage device 1940 is configured using a storage medium such as an HDD (Hard Disk Drive) or a Flash SSD (Flash Solid State Drive), as with the storage device 1910 of the centralized device 10. The storage device 1940 stores a processing program 1941, a road map data DB 221 and an image data DB 222. The road map data DB 221 is a database that stores map information. The image data DB 222 is a database that stores captured images acquired by the camera device 60.

  The input / output interface 1950 is an interface for connecting to the wireless communication device 30, the display device 40, the vehicle sensor device 50, the camera device 60, and the navigation device 70, and is configured using, for example, an interface card.

  The MPU 1930 is an arithmetic device configured using a processor or the like, processes traffic congestion distribution information distributed from the central device 10 and received by the information terminal device 20, generation of photographing information for transmission to the central device 10, and concentration. Overall control for performing communication with the apparatus 10 is performed. The MPU 1930 reads the processing program 1941 stored in the storage device 1940 and implements various functions according to various instructions described in the processing program 1941. For example, a function for transmitting photographing information and a distribution request to the central apparatus 10 and a function for receiving traffic distribution information distributed from the central apparatus 10 are realized. Details of these will be described later.

  The wireless communication device 30 is a device that transmits shooting information and a distribution request to the centralized device 10 and receives traffic congestion distribution information distributed from the centralized device 10 under the control of the information terminal device 20. The wireless communication device 30 may be realized by, for example, a smartphone tethering function, or may be a portable wireless router or a vehicle-mounted wireless communication device.

  The display device 40 is a device that displays various images according to the control of the information terminal device 20, and is configured using, for example, a liquid crystal display. The display device 40 displays a screen including a captured image of the traffic congestion point based on the traffic congestion distribution information distributed from the concentration device 10. Further, the navigation device 70 displays a map screen showing the current position and traveling direction of the host vehicle, the route to the destination, and the like. The display device 40 may be used as a touch panel so that an input operation from the user can be detected.

  The vehicle sensor device 50 is a device for measuring vehicle information related to the host vehicle. The vehicle sensor device 50 is, for example, a GPS sensor, a gyro sensor, or an acceleration sensor, and measures the latitude, longitude, speed, traveling azimuth angle, acceleration, and the like of the host vehicle. The vehicle sensor device 50 may be, for example, a sensor mounted on the host vehicle, or a sensor mounted on a device such as the navigation device 70 or a smartphone.

  The camera device 60 is attached in the vicinity of the dashboard of the own vehicle, the rearview mirror, and the like, and photographs the surroundings of the own vehicle, for example, the front and rear. The camera device 60 may be a camera such as a stereo camera mounted on the host vehicle, or may be a camera mounted on a device such as the navigation device 70 or a smartphone.

  The navigation device 70 is a device for displaying a map screen on the display device 40 and searching for a route to a set destination. The navigation device 70 may be realized as one function of the information terminal device 20, or may be a PND (Portable Navigation Device) integrated with the display device 40 or a navigation application installed in a smartphone.

<Information distribution method by information distribution system>
Next, a method of information distribution performed between the central apparatus 10 and the vehicle 2 equipped with the information terminal apparatus 20 will be described.

  FIG. 2 is a diagram showing an outline of an information distribution method by the information distribution system of the present invention. In FIG. 2, a plurality of vehicles 2 are represented by reference numerals 2-1 to 2-5, and each information terminal device 20 mounted on each of the vehicles 2-1 to 2-5 is represented by reference numeral 20-1. -20-20, respectively.

  As shown in FIG. 2, the vehicle 2-1, the vehicle 2-2, the vehicle 2-3, the vehicle 2-4, and the vehicle 2-5 are traveling in the same direction on the same route. In FIG. 2, a vehicle 2-1, a vehicle 2-2, a vehicle 2-3, and a vehicle 2-4 are involved in a traffic jam, and the vehicle 2-1 captures shooting information 4001 to the centralized device 10 via the network 3. Sending. Based on the photographing information 4001, the concentration device 10 distributes the traffic congestion distribution information 4002 to the vehicle 2-5. FIG. 2 shows such a case as an example.

  In FIG. 2, when a vehicle 2-1 detects a traffic jam from vehicle information, the vehicle 2-1 is used as a trigger, based on an image of the surroundings of the vehicle 2-1, a shooting time at that time, vehicle information, and the like. Shooting information to be transmitted to 10 is created. Then, the imaging information is transmitted to the centralized device 10 via the network 3. This photographing information is received and accumulated in the centralized device 10.

  The vehicle 2-5 generates a distribution request for requesting the congestion distribution information from the concentration device 10 based on the user's operation or the like. This distribution request includes vehicle information such as a vehicle ID, a moving direction, and a moving speed of the vehicle 2-5, information on a set route, information on a display range of a road map, a scale, and the like. The distribution request is transmitted from the vehicle 2-5 to the central apparatus 10 via the network 3.

  When receiving the distribution request transmitted from the vehicle 2-5, the concentration apparatus 10 selects the shooting information 4001 from the stored shooting information based on the distribution request. And the traffic congestion distribution information 4002 is produced | generated based on the imaging | photography information 4001, and it distributes with respect to the information terminal device 20-5 mounted in the vehicle 2-5. In this way, the driver of the vehicle 2-5 who is a service user pays attention by exchanging shooting information and distribution requests between the vehicles 2-1 and 2-5 and the centralized device 10. It is possible to present a captured image of a traffic jam point in advance.

<Detailed operation of information distribution system>
Next, detailed operation of the information distribution system according to the first embodiment of the present invention will be described. The information distribution system according to the first embodiment is realized by exchanging shooting information, traffic congestion distribution information, and distribution requests between the centralized device 10 and the information terminal device 20, and executing control based on these information. Is done.

  FIG. 3 is a functional block diagram showing functional configurations of the centralized device 10 and the information terminal device 20 in the first embodiment of the present invention. As illustrated in FIG. 3, the concentration device 10 functionally includes a processing unit 100, a storage unit 120, and a communication unit 130. The information terminal device 20 mounted on the vehicle 2 functionally includes a processing unit 200, a storage unit 220, and a communication unit 230.

  In the centralized apparatus 10, the processing unit 100 is a functional block corresponding to the MPU 1900 and the processing program 1911 in FIG. 1, and includes an imaging information collection unit 101, a distribution request acquisition unit 102, a traffic jam distribution information generation unit 103, and selection notification information acquisition. The unit 104 is functionally included. The MPU 1900 executes the processing program 1911 so that these functional blocks are realized in the centralized device 10.

  The shooting information collection unit 101 is a part for collecting shooting information transmitted from each information terminal device 20. In the photographing information collection unit 101, photographing information collection processing shown in a flowchart of FIG. 5 described later is executed. By this processing, the central apparatus 10 can collect and store the shooting information transmitted from each information terminal apparatus 20 and received by the communication unit 130.

  The distribution request acquisition unit 102 is a part for acquiring a distribution request transmitted from the information terminal device 20. The traffic jam distribution information generation unit 103 is a part for generating traffic jam distribution information in response to a distribution request. In the distribution request acquisition unit 102 and the traffic jam distribution information generation unit 103, the traffic jam distribution information transmission process shown in the flowchart of FIG. 7 described later is executed. By this processing, the concentration device 10 can provide the traffic distribution information to the information terminal device 20.

  The selection notification information acquisition unit 104 is a part for acquiring selection notification information transmitted from each information terminal device 20. In the selection notification information acquisition unit 104, a selection notification information acquisition process shown in the flowchart of FIG. 10 described later is executed. With this processing, the concentration apparatus 10 can record a history of selection operations performed on the captured image included in the traffic jam distribution information provided to each information terminal apparatus 20 together with the imaging information.

  The storage unit 120 is a functional block corresponding to the storage device 1910 of FIG. 1 and includes the road map data DB 121 and the collection data DB 122 described with reference to FIG.

  The communication unit 130 is a functional block corresponding to the input / output interface 1920 in FIG. 1, and transmits / receives information performed between the centralized device 10 and each information terminal device 20 via the network 3.

  In the information terminal device 20, the processing unit 200 is a functional block corresponding to the MPU 1930 and the processing program 1941 in FIG. The processing unit 200 includes a data acquisition unit 201, a traffic jam determination unit 202, a shooting information generation unit 203, a distribution request generation unit 204, a traffic jam distribution information acquisition unit 205, a display screen generation unit 206, and a selection notification information generation unit 207. Have. These functional blocks are realized in the information terminal device 20 by the MPU 1930 executing the processing program 1941.

  The vehicle sensor device 50 includes a vehicle position detection unit 501 that detects the position of the host vehicle, a vehicle travel speed detection unit 502 that detects the travel speed of the host vehicle, and a vehicle travel direction detection unit 503 that detects the travel direction of the host vehicle. The detection result is output to the data acquisition unit 201 as vehicle information related to the host vehicle.

  The vehicle position detection unit 501 is configured using, for example, a global positioning system (GPS), and reads the current time from a timer (not shown) to measure the latitude and longitude of the host vehicle. The vehicle travel speed detection unit 502 is configured using, for example, a speed sensor or a gyroscope. The gyroscope is a sensor that measures the acceleration and angle of the host vehicle, and the speed sensor is a sensor that measures the speed of the host vehicle. The vehicle traveling direction detection unit 503 is configured using, for example, a compass or a gyrocompass.

  The data acquisition unit 201 is a part for acquiring vehicle information related to the host vehicle from the vehicle sensor device 50 or acquiring a captured image from the image data DB 222. The traffic jam determination unit 202 is a part for determining whether or not the own vehicle is involved in traffic jam. The shooting information generation unit 203 is a part for generating shooting information to be transmitted to the concentration apparatus 10 based on the vehicle information and the shot image acquired by the data acquisition unit 201. In the data acquisition unit 201, the traffic jam determination unit 202, and the shooting information generation unit 203, shooting information transmission processing shown in the flowchart of FIG. By this process, the information terminal device 20 can transmit the shooting information including the shot image when the host vehicle is involved in a traffic jam to the concentration device 10.

  The distribution request generation unit 204 is a part for generating a distribution request for requesting the concentration device 10 for traffic congestion distribution information related to the planned travel point of the host vehicle. The distribution request generation unit 204 executes a distribution request transmission process shown in the flowchart of FIG. By this processing, the information terminal device 20 can request the centralized device 10 for traffic jam distribution information regarding the planned travel point of the host vehicle.

  The traffic jam distribution information acquisition unit 205 is a part for receiving and acquiring the traffic jam distribution information distributed from the concentration device 10. The display screen generation unit 206 is a part for generating a display screen including a captured image corresponding to the planned travel point of the host vehicle based on the traffic congestion distribution information acquired by the traffic congestion distribution information acquisition unit 205. In the traffic jam distribution information acquisition unit 205 and the display screen generation unit 206, the traffic jam distribution information reception process shown in the flowchart of FIG. 8 described later is executed. As a result of this processing, the information terminal device 20 can display on the screen of the display device 40 an image obtained by photographing another vehicle as the information indicating the traffic congestion status of the planned travel point of the host vehicle.

  The selection notification information generation unit 207 notifies the concentration device 10 of a selection operation when a user's selection operation is performed on a captured image included in the display screen displayed on the display device 40. This is a part for generating the selection notification information. In the selection notification information generation unit 207, selection notification information transmission processing shown in the flowchart of FIG. 9 described later is executed. By this processing, the information terminal device 20 can notify the centralized device 10 that the user has selected the captured image provided by the traffic jam distribution information.

  The storage unit 220 is a functional block corresponding to the storage device 1940 in FIG. 1, and includes the road map data DB 221 and the image data DB 222 described in FIG.

  The communication unit 230 is a functional block corresponding to the input / output interface 1950 of FIG. 1, and transmits and receives information between the information terminal device 20 and the centralized device 10 via the network 3.

<Information distribution flow of information distribution system>
Next, the flow of information distribution in the information distribution system according to the first embodiment of the present invention will be described. FIG. 11 is a sequence diagram when the traffic jam information is distributed from the concentration device 10 to the vehicle 2.

  As illustrated in FIG. 11, the vehicle 2 exchanges shooting information, a distribution request, and traffic jam distribution information with the central apparatus 10. In FIG. 11, reference numeral 1001 indicates a process of transmitting shooting information from the vehicle 2 to the concentration apparatus 10, and reference numeral 1002 indicates a process of receiving and collecting the shooting information transmitted from the vehicle 2 by the concentration apparatus 10. Reference numeral 1003 indicates a process of transmitting a distribution request from the vehicle 2 to the central apparatus 10, reference numeral 1004 indicates a process of transmitting traffic congestion distribution information from the central apparatus 10 to the vehicle 2, and reference numeral 1005 is transmitted from the central apparatus 10. A process in which the vehicle 2 receives the traffic congestion distribution information is shown.

  The vehicle 2 executes the process 1001 every predetermined time. When the vehicle 2 is involved in a traffic jam, the vehicle 2 transmits the shooting information including the shot images around the vehicle 2 to the concentration device 10 via the network 3. When shooting information is transmitted from the vehicle 2 via the network 3, the central apparatus 10 executes the process 1002, and receives and stores the shooting information.

  Another vehicle 2 executes the process 1003 at a predetermined timing, and transmits a distribution request to the centralized device 10 via the network 3. When a distribution request is transmitted from the vehicle 2 via the network 3, the central apparatus 10 executes a process 1004, receives the distribution request, and generates traffic congestion distribution information from the accumulated shooting information. Then, the generated traffic jam distribution information is transmitted to the vehicle 2 via the network 3. When the traffic congestion distribution information is transmitted from the centralized device 10 via the network 3, the vehicle 2 executes the process 1005 and receives the traffic congestion distribution information. Then, a captured image included in the received traffic jam distribution information is generated and displayed on the display device 40.

  When the selection operation for the captured image displayed based on the traffic jam distribution information is performed on the display device 40, the vehicle 2 executes the process 1006 and generates selection notification information regarding the selection operation. Then, the generated selection notification information is transmitted to the vehicle 2 via the network 3. When the selection notification information is transmitted from the vehicle 2 via the network 3, the central apparatus 10 executes the process 1007 and receives the selection notification information. Then, based on the received selection notification information, the selected captured image is specified, and the history of the selection operation is recorded.

<Flow of shooting information transmission processing>
Next, details of processing performed in the process 1001 of FIG. 11 will be described. FIG. 4 is a flowchart of imaging information transmission processing executed in the process 1001. The information terminal device 20 mounted on the vehicle 2 performs the shooting information transmission process shown in the flowchart of FIG. 4 at a predetermined timing by the data acquisition unit 201, the traffic jam determination unit 202, the shooting information generation unit 203, and the communication unit 230. To run.

  In step S <b> 101, the data acquisition unit 201 acquires vehicle information regarding the host vehicle from the vehicle sensor device 50. Here, the position information of the host vehicle such as longitude and latitude is acquired from the vehicle position detector 501, the traveling speed information of the host vehicle is acquired from the vehicle traveling speed detector 502, and the traveling direction detector 503 of the host vehicle is detected. Get moving direction information.

  In step S <b> 102, the data acquisition unit 201 acquires captured images around the host vehicle that are periodically captured by the camera device 60 and records the captured images in the image data DB 222. Here, based on the captured image acquired from the camera device 60 and the vehicle information acquired from the vehicle sensor device 50 in step S101, accumulated image data in a predetermined format is generated and recorded in the image data DB 222.

  In step S103, the traffic jam determination unit 202 determines whether or not the subject vehicle is involved in traffic jam based on the vehicle information acquired from the vehicle sensor device 50 in step S101. For example, when the state in which the traveling speed of the host vehicle indicated by the vehicle information is less than a predetermined threshold continues for a certain period of time or when acceleration / deceleration is repeatedly performed in less than a predetermined period, When vehicle information indicating characteristics at the time of occurrence of traffic jam is acquired, it is determined that the host vehicle is involved in traffic jam. If it is determined in step S103 that the host vehicle is involved in a traffic jam, the process proceeds to the next step S104. If not, the flowchart of FIG. 4 is terminated and the photographing information transmission process is completed.

  In step S <b> 104, the shooting information generation unit 203 stores stored image data corresponding to the time point when it is determined in step S <b> 103 that the host vehicle is involved in a traffic jam from the stored image data recorded in the image data DB 222. Extract. For example, accumulated image data including a photographed image photographed immediately before or after the determination in step S103 is retrieved from the image data DB 222 and extracted. Then, using the extracted accumulated image data, shooting information to be transmitted to the central apparatus 10 is generated.

  FIG. 12 is a diagram illustrating an example of the shooting information generated in step S104. The shooting information 301 shown in FIG. 12 includes a vehicle ID (Identifier) 310 for specifying a transmission source vehicle, and shooting information 311 related to a shooting image and vehicle information included in the extracted accumulated image. The shooting information 311 includes information on the detection status 321, positioning time 322, image data 323, shooting direction 324, position information 325, and road link 326.

  The detection status 321 is information indicating the traffic congestion status detected (determined) by the traffic congestion determination unit 202. In this area, data corresponding to traffic conditions such as “congested”, “occurrence of traffic jam”, and “cancel traffic jam” are written. For example, if the traffic determination unit 202 determines that there is a traffic jam several times in succession, “congestion occurs” for the first shooting information, “medium traffic” for the second and subsequent shooting information, and “congestion resolution” for the last shooting information. Is written in the detection status 321. In the shooting information 301 illustrated in FIG. 12, since data indicating “congestion occurrence” is recorded in the detection state 321, it can be seen that the shooting information is generated immediately after the occurrence of the traffic jam.

  The positioning time 322 is information indicating the time when the captured image is captured by the camera device 60. FIG. 12 illustrates an example in which data indicating a captured image captured at 13:11 on January 1, 2013 is recorded in the positioning time 322.

  The image data 323 is image data of a captured image. FIG. 12 shows an example in which data having a file name of image 8100-3 is recorded as image data 323.

  The shooting direction 324 is information indicating the direction in which the shot image was shot. The value of the shooting direction 324 is determined by the moving direction of the vehicle 2 measured by the vehicle traveling direction detection unit 503 and the direction of the camera device 60.

  The position information 325 is information indicating the position of the transmission source vehicle 2 measured by the vehicle position detection unit 501. The position information 325 includes information indicating latitude, information indicating whether the latitude is north latitude (N) or south latitude (S), information indicating longitude, and longitude indicating east longitude (E) or west longitude (W ) And information indicating any of the above.

  The road link 326 is information indicating the road on which the vehicle 2 was traveling when the captured image was acquired. The value of the road link 326 is determined by matching the vehicle position at the time of shooting with the road map data DB 221. FIG. 12 illustrates an example in which data indicating that a photographed image is captured between a road having a road link ID of 21 and a road having a road link ID of 41 is recorded in the road link 326.

  Note that the format and contents of the shooting information described above are examples, and shooting information may be generated in other formats and contents. Any photographing information may be used as long as necessary photographing images and vehicle information can be transmitted to the concentration apparatus 10.

  In step S105, the communication unit 230 transmits the shooting information generated in step S104 to the central apparatus 10. Here, the radio communication device 30 is controlled by the communication unit 230 by outputting the radiographing information as illustrated in FIG. 12 from the radiographing information generation unit 203 to the communication unit 230, and then via the network 3 from the radio communication device 30. Thus, the photographing information is transmitted to the centralized device 10. At this time, shooting information regarding a plurality of shot images may be transmitted together. If step S105 is performed, the flowchart of FIG. 4 will be complete | finished and imaging | photography information transmission processing will be completed.

<Flow of shooting information reception processing>
Next, details of processing performed in the process 1002 of FIG. 11 will be described. FIG. 5 is a flowchart of the shooting information collection process executed in the process 1002. When the photographing information is transmitted from the information terminal device 20, the central apparatus 10 performs the photographing information collection process illustrated in the flowchart of FIG. 5 by the photographing information collection unit 101 and the communication unit 130.

  In step S <b> 201, the communication unit 130 receives imaging information transmitted from the information terminal device 20 to the centralized device 10 via the network 3. This shooting information is output from the communication unit 130 to the shooting information collection unit 101 and collected by the shooting information collection unit 101.

  In step S202, the imaging information collection unit 101 stores and accumulates the imaging information received and collected by the communication unit 130 in step S201 in the collection data DB 122. By repeatedly executing this process every time shooting information is transmitted, shooting information transmitted from each information terminal device 20 is accumulated in the collection data DB 122 in the centralized device 10.

  FIG. 16 is a diagram illustrating an example of shooting information accumulated in the collected data DB 122. The collection data DB 122 stores shooting information from each information terminal device 20 in a format as shown in FIG. 16, for example. The collection data DB 122 illustrated in FIG. 16 includes information on a transmission source vehicle ID 701, a detection status 702, a positioning time 703, image data 704, a shooting direction 705, position information 706, a road link 707, and a click count 708.

  In the collected data DB 122, the transmission source vehicle ID 701, detection status 702, positioning time 703, image data 704, shooting direction 705, position information 706, road link 707, vehicle ID 310 included in the shooting information 301 shown in FIG. This is information corresponding to the situation 321, positioning time 322, image data 323, shooting direction 324, position information 325, and road link 326. The number of clicks 708 is information indicating the number of times that the selection operation for the captured image is performed in each information terminal device 20. The value of the number of clicks 708 is determined based on the content when selection notification information 601 exemplified in FIG. 15 described later is received from each information terminal device 20.

  In step S203, the imaging information collection unit 101 determines whether there is no expired data in the imaging information stored in the collection data DB 122 in step S202. This determination can be made based on the positioning time 703 shown in FIG. For example, if there is shooting information in which the value exceeding the data retention time specified in advance by the administrator of the centralized device 10 is set in the positioning time 703, it is determined that the shooting information has expired. If it is determined in step S203 that there is expired shooting data, the process proceeds to step S204. If it is determined that there is no shooting data, the flowchart of FIG.

  In step S204, the imaging information collection unit 101 deletes the imaging information determined to have expired in step S203 from the collection DB 122. If step S204 is performed, the flowchart of FIG. 5 will be complete | finished and imaging | photography information collection processing will be completed.

<Flow of delivery request transmission processing>
Next, details of processing performed in the process 1003 of FIG. 11 will be described. FIG. 6 is a flowchart of the distribution request transmission process executed in the process 1003. When the driver of the vehicle 2 who is a service user performs a predetermined operation, the information terminal device 20 mounted on the vehicle 2 causes the data acquisition unit 201, the distribution request generation unit 204, and the communication unit 230 to perform the operation illustrated in FIG. The distribution request transmission process shown in the flowchart is executed.

  In step S <b> 301, the data acquisition unit 201 acquires vehicle information related to the host vehicle from the vehicle sensor device 50. Here, the position information of the host vehicle such as longitude and latitude is acquired from the vehicle position detector 501, the traveling speed information of the host vehicle is acquired from the vehicle traveling speed detector 502, and the traveling direction detector 503 of the host vehicle is detected. Get moving direction information.

  In step S <b> 302, the data acquisition unit 201 acquires display device information regarding the display device 40 from the display device 40. Here, information such as the scale and range of the map displayed on the display device 40 is acquired as display device information. Further, when a route to the destination is set in the navigation device 70, the information on the route may be acquired together with the display device information. If no route is set in the navigation device 70, route information is not acquired.

  In step S303, the distribution request generation unit 204 requests the centralized device 10 for traffic congestion distribution information related to the planned travel point of the host vehicle based on the vehicle information and route information acquired by the data acquisition unit 201 in steps S301 and S302. Generate a distribution request to

  FIG. 13 is a diagram illustrating an example of the distribution request generated in step S303. The distribution request 401 shown in FIG. 13 includes a vehicle ID 411 for specifying a transmission source vehicle, vehicle information 412, route information 413, and display device information 414.

  The vehicle information 412 includes information on position information 421, road links 422, speed 423, and vehicle movement direction 424.

  The position information 421 is information indicating the position of the transmission source vehicle 2 measured by the vehicle position detection unit 501. The position information 421 includes information indicating latitude, information indicating whether the latitude is north latitude (N) or south latitude (S), information indicating longitude, and longitude indicating east longitude (E) or west longitude (W ) And information indicating any of the above.

  The road link 422 is information indicating a road on which the transmission source vehicle 2 is traveling. The value of the road link 422 is determined by matching the vehicle position at the time of shooting with the road map data DB 221. For example, the value of the road link ID is recorded.

  The speed 423 is information indicating the travel speed of the transmission source vehicle 2 measured by the vehicle travel speed detection unit 502.

  The vehicle movement direction 424 is information indicating the movement direction of the vehicle 2 measured by the vehicle traveling direction detection unit 503.

  In the route information 413, for each road link 1 to n included in the route set in the navigation device 70, the value of the road link ID is recorded as indicated by reference numerals 431-1 to 431-n. If no route is set, the route information 413 records information indicating no route.

  The display device information 414 includes information on a scale 441 and a display range 442. The scale 441 is information representing the scale of the map displayed on the display device 40. The display range 442 is information representing the range of the map displayed on the display device 40.

  Note that the format and contents of the distribution request described above are examples, and the distribution request may be generated in other formats and contents. Any distribution request may be used as long as it is possible to request traffic distribution information regarding the planned travel point of the host vehicle to the centralized device 10.

  In step S304, the communication unit 230 transmits the distribution request generated in step S303 to the centralized device 10. Here, the distribution request as shown in FIG. 13 is output from the distribution request generator 204 to the communication unit 230, whereby the wireless communication device 30 is controlled by the communication unit 230, and the wireless communication device 30 passes through the network 3. Then, a distribution request is transmitted to the centralized device 10. If step S304 is performed, the flowchart of FIG. 6 will be complete | finished and a delivery request transmission process will be completed.

<Flow of traffic distribution information transmission processing>
Next, details of processing performed in the process 1004 of FIG. 11 will be described. FIG. 7 is a flowchart of the traffic jam distribution information transmission process executed in the process 1004. When the distribution request is transmitted from the information terminal device 20, the concentration device 10 performs the congestion distribution information transmission process shown in the flowchart of FIG. 7 by the distribution request acquisition unit 102, the congestion distribution information generation unit 103, and the communication unit 130. To do.

  In step S <b> 401, the communication unit 130 receives a distribution request transmitted from the information terminal device 20 to the centralized device 10 via the network 3.

  In step S402, the distribution request acquisition unit 102 acquires each piece of information included in the distribution request received by the communication unit 130 in step S401. Here, each piece of information as shown in FIG. 13 is acquired from the distribution request and sent to the traffic congestion distribution information generation unit 103.

  In step S403, the traffic jam distribution information generation unit 103 determines whether a destination is specified for the vehicle 2 that has transmitted the distribution request. This determination is performed by confirming whether route information is set in each piece of information of the distribution request acquired from the distribution request acquisition unit 102 in step S402. If the route information is not set, it is determined that the destination is not specified and the process proceeds to step S404. If it is set, it is determined that the destination is specified and the process proceeds to step S405.

  In step S404, the traffic jam distribution information generation unit 103 searches the shooting information stored in the collected data DB 122 for shooting information within the display range of the display device 40 mounted on the vehicle 2 that has transmitted the distribution request. To do. Here, the display range of the display device 40 is determined based on the display device information acquired from the distribution request acquisition unit 102 in step S402. Then, based on the position information 706 and the road link 707 in FIG. 16, shooting information corresponding to the determined display range is searched from the collection data DB 122. Furthermore, at this time, based on the shooting direction 705, a search may be made for a case where the moving direction of the vehicle 2 that transmitted the distribution request matches the shooting direction. When shooting information within the display range is searched in this way, the process proceeds to step S406.

  In step S <b> 405, the traffic jam distribution information generation unit 103 searches the shooting information stored in the collection data DB 122 for shooting information on the route of the vehicle 2 that transmitted the distribution request. Here, the route set for the vehicle 2 is determined based on the route information acquired from the distribution request acquisition unit 102 in step S402. Then, based on the position information 706 and the road link 707 in FIG. 16, shooting information corresponding to the determined route is searched from the collection data DB 122. Furthermore, at this time, based on the shooting direction 705, a search may be made for a case where the moving direction of the vehicle 2 that transmitted the distribution request matches the shooting direction. When the shooting information on the route is searched in this way, the process proceeds to step S406.

  In step S406, the traffic jam distribution information generation unit 103 compares the number of shooting information searched in step S404 or S405 with a preset display threshold. Here, the number of retrievals of shooting information is M, and the display threshold is N. As a result, if M = 0, that is, if no shooting information is searched, the process proceeds to step S407. If 0 <M <N, that is, if the number of searched shooting information is less than the display threshold. The process proceeds to step S408. If M ≧ N, that is, if the number of searched shooting information is greater than or equal to the display threshold, the process proceeds to step S409. An arbitrary number can be set as the display threshold N. For example, the administrator of the central apparatus 10 may set, or each service user may set individually.

  In step S407, the traffic jam distribution information generation unit 103 generates traffic jam distribution information that does not include shooting information. If the traffic congestion distribution information is generated, the process proceeds to step S411.

  In step S408, the traffic jam distribution information generation unit 103 generates traffic jam distribution information including the M pieces of shooting information searched in step S404 or S405. If the traffic congestion distribution information is generated, the process proceeds to step S411.

  In step S409, the traffic jam distribution information generation unit 103 selects up to N display information from the M pieces of shooting information searched in step S404 or S405. Here, priorities are set for the searched shooting information, and N pieces of shooting information are selected in descending order of priority. For example, based on the positioning time 703 in FIG. 16, a higher priority is set for a new captured time, or a higher priority is set for a larger number of clicks based on the number of clicks 708. Thus, the priority of each piece of shooting information can be set. Alternatively, based on the road link 707, a higher priority may be set as the road type is higher. Furthermore, the priority can be set by combining these plural conditions. In this way, by selecting the shooting information in descending order of priority, the searched M pieces of shooting information are narrowed down to N pieces, and the process proceeds to step S410.

  In step S410, the traffic jam distribution information generation unit 103 generates traffic jam distribution information including the N pieces of shooting information selected in step S409. If the traffic congestion distribution information is generated, the process proceeds to step S411.

  FIG. 14 is a diagram illustrating an example of the traffic jam distribution information generated in step S407, S408, or S410. The traffic jam distribution information 501 shown in FIG. 14 includes an information ID 511 for specifying each traffic jam distribution information and shooting information 512-1 to 512-n representing each shooting information from 1 to n. The shooting information 512-1 includes information on the detection status 521, positioning time 522, image data 523, shooting direction 524, position information 525, and road link 526. These pieces of information correspond to the detection status 702, positioning time 703, image data 704, shooting direction 705, position information 706, and road link 707 included in each shooting information accumulated in the collected data DB 122 shown in FIG. ing. The other shooting information also has similar information.

  In step S411, the communication unit 130 transmits the traffic distribution information generated in step S407, S408, or S410 by the traffic congestion distribution information generation unit 103 to the distribution request received in step S401 via the network 3. 20 to send. Thereby, the traffic congestion distribution information is distributed from the centralized device 10 to the information terminal device 20 in response to the distribution request from the information terminal device 20. If step S411 is performed, the flowchart of FIG. 7 will be complete | finished and traffic congestion delivery information transmission processing will be completed.

<Flow of traffic distribution information reception processing>
Next, details of processing performed in the process 1005 of FIG. 11 will be described. FIG. 8 is a flowchart of the traffic jam distribution information reception process executed in the process 1005. When the traffic congestion distribution information is transmitted from the concentration device 10, the information terminal device 20 mounted on the vehicle 2 is shown in the flowchart of FIG. 8 by the traffic congestion distribution information acquisition unit 205, the display screen generation unit 206, and the communication unit 230. Execute the traffic jam distribution information reception process.

  In step S501, the communication unit 230 receives the traffic congestion distribution information transmitted from the central apparatus 10. Here, the traffic distribution information transmitted from the centralized device 10 to the information terminal device 20 via the network 3 is received by controlling the wireless communication device 30 by the communication unit 230. The received traffic jam distribution information is output from the communication unit 230 to the traffic jam distribution information acquisition unit 205.

  In step S502, the traffic jam distribution information acquisition unit 205 acquires each piece of information included in the traffic jam distribution information received by the communication unit 230 in step S501. Here, each piece of information as shown in FIG. 14 is acquired from the traffic jam distribution information and sent to the display screen generation unit 206.

  In step S503, the display screen generation unit 206 generates a display screen to be displayed on the display device 40 based on each information acquired from the traffic jam distribution information in step S502. Here, the map information stored in the road map data DB 221 is collated with each piece of shooting information acquired from the traffic jam distribution information in step S502, and based on the comparison result, the shot image data included in each piece of shooting information is stored. Determine the display position. Then, on the map displayed based on the map information stored in the road map data DB 221, the captured image is displayed on the determined display position so as to overlap each other, thereby capturing the captured image corresponding to the planned traveling point of the host vehicle. Generate a display screen containing

  FIG. 17 is a diagram illustrating an example of road map information stored in the road map DB 121. In the road map DB 121, for example, road map information is recorded in a format as shown in FIG. The road map DB 121 shown in FIG. 17 indicates, for each road link, a road link ID, point latitude information 1 indicating the latitude of the point position, and whether the point latitude information 1 is north latitude or south latitude. The node latitude information 2, the node longitude information 1 indicating the longitude of the position of the node, and the node longitude information 2 indicating whether the node longitude information 1 is east longitude or west longitude are included. In addition, it includes a point ID of another point connected to the point, distance information between points indicating the distance from each point connected to the point, and information on the size of the point. Yes.

  In the example shown in FIG. 17, the nodal points having a radius of 5 m registered with the road link ID “1” are located at “4807.0034847” (north latitude) and “01131.324523” (east longitude). Yes. And the said road link 1 is connected with the road link 2, the road link 3, and the road link 4, and the distance with the road link 2 is 30 m, and it has shown that the distance with the road link 4 is 40 m. . Thus, in the road map information stored in the road map DB 121, the road link is defined as a line segment connecting two points.

  FIG. 18 is a diagram illustrating an example of a road map represented by the road map information illustrated in FIG. The road map shown in FIG. 18 includes road links 2001-2004. These road links respectively correspond to road sections having nodes (nodes) corresponding to, for example, intersections, three-way intersections, and curves. The road map information shown in FIG. 17 describes the shape and connection of such road links in detail.

  FIG. 19 is a diagram illustrating an example of a display screen displayed on the display device 40 in step S504. The display screen example of FIG. 19 shows an example in which a car mark 3000 indicating the position of the host vehicle and captured images 4001, 4002, and 4003 are displayed on a road map including the road links 2001 to 2004 illustrated in FIG. ing. Note that when the driver of the vehicle 2 selects any one of the captured images 4001 to 4003 on the display device 40, the captured image may be displayed in an enlarged manner. Furthermore, the display size of each captured image may be changed according to the number of selections.

  In step S504, the generated display screen is displayed on the display device 40 by outputting the display screen data generated in step 503 from the display screen generating unit 206 to the display device 40. If step S504 is performed, the flowchart of FIG. 8 will be complete | finished and traffic congestion delivery information reception processing will be completed.

<Flow of selection notification information transmission processing>
Next, details of processing performed in the process 1006 of FIG. 11 will be described. FIG. 9 is a flowchart of selection notification information transmission processing executed in process 1006. The information terminal device 20 mounted on the vehicle 2 is an operation for the driver of the vehicle 2 who is a service user to select one of the captured images included in the display screen, for example, click on the display device 40. When an operation or the like is performed, the selection notification information generation unit 207 and the communication unit 230 execute the selection notification information transmission process shown in the flowchart of FIG.

  In step S601, the selection notification information generation unit 207 generates selection notification information including information regarding the selected captured image. Here, for example, when one of the captured images 4001, 4002, and 4003 is selected on the display screen illustrated in FIG. 19, selection notification information including information for specifying the captured image in the centralized device 10 is generated.

  FIG. 15 is a diagram illustrating an example of the selection notification information generated in step S601. The selection notification information 601 illustrated in FIG. 15 includes an information ID 611 for specifying the selection notification information and shooting information 612 that represents shooting information regarding the selected shooting image. The shooting information 612 includes information on the detection status 621, positioning time 622, image data 623, shooting direction 624, position information 625, and road link 626. These pieces of information correspond to the detection status 521, positioning time 522, image data 523, shooting direction 524, position information 525, and road link 526 included in the traffic jam distribution information 501 shown in FIG. The selection notification information generation unit 207 receives the traffic congestion distribution information including the selected photographed image from the concentration device 10 and, based on these pieces of information included in the traffic congestion distribution information, the selection shown in FIG. Notification information 601 can be generated.

  Note that the format and contents of the selection notification information described above are examples, and the selection notification information may be generated in other formats and contents. Any selection notification information may be used as long as the photographic image selected by the information terminal device 20 can be specified by the concentration device 10.

  In step S602, the communication unit 230 transmits the selection notification information generated in step S601 to the central apparatus 10. Here, the selection notification information as shown in FIG. 15 is output from the selection notification information generation unit 207 to the communication unit 230, whereby the wireless communication device 30 is controlled by the communication unit 230, and the wireless communication device 30 transmits the network 3. The selection notification information is transmitted to the centralized device 10 via If step S602 is performed, the flowchart of FIG. 9 will be complete | finished and a selection notification information transmission process will be completed.

<Flow of selection notification information reception processing>
Next, details of processing performed in the process 1007 of FIG. 11 will be described. FIG. 10 is a flowchart of selection notification information reception processing executed in process 1007. When the selection notification information is transmitted from the information terminal device 20, the concentration device 10 performs the selection notification information reception process illustrated in the flowchart of FIG. 10 by the selection notification information acquisition unit 104 and the communication unit 130.

  In step S <b> 701, the communication unit 130 receives the selection notification information transmitted from the information terminal device 20 to the centralized device 10 via the network 3.

  In step S702, the selection notification information acquisition unit 104 obtains shooting information corresponding to the shot image selected by the information terminal device 20 that transmitted the selection notification information based on the selection notification information received by the communication unit 130 in step S701. Then, it is specified from the shooting information stored in the collected data DB 122. Here, for example, the shooting information including the data of the same shot image as the image data 623 included in the selection notification information illustrated in FIG. 15 is searched from the shooting information stored in the collection data DB 122, thereby obtaining the shooting information. Can be specified.

  In step S703, the selection notification information acquisition unit 104 increments the count value of the number of selections by one for the shooting information in the collection data DB 122 specified in step S702. Here, among the pieces of information in the collected data DB 122 illustrated in FIG. 16, the number of clicks 708 of the shooting information is counted up. If step S703 is performed, the flowchart of FIG. 10 will be complete | finished and a selection notification information reception process will be completed.

  By performing the selection notification information reception process as described above, the reception history of the selection notification information is recorded for each piece of shooting information stored in the collection data DB 122 in the centralized device 10. Therefore, in step S409 in the traffic jam distribution information transmission process of FIG. 7, a captured image included in the traffic jam distribution information is selected based on the reception history of the selection notification information.

  According to the 1st Embodiment of this invention demonstrated above, there exist the following effects.

(1) The information distribution system includes a plurality of information terminal devices 20 respectively mounted on a plurality of vehicles 2 and a concentration device 10 that communicates with each of the plurality of information terminal devices 20. In this information distribution system, each of the plurality of information terminal devices 20 transmits, to the concentration device 10, a captured image at the time of traffic jam that captures the surroundings of the host vehicle on which the information terminal device is mounted. On the other hand, the concentration device 10 collects the captured images transmitted from the plurality of information terminal devices 20 and accumulates them in the storage unit 120, and in response to a distribution request transmitted from any of the plurality of information terminal devices 20, The accumulated photographed image is distributed to the information terminal device 20. Since it did in this way, when the traffic jam occurs, the picked-up image regarding the traffic jam can be appropriately provided to the required service user.

(2) Each of the plurality of information terminal devices 20 functionally includes a data acquisition unit 201, a traffic jam determination unit 202, a shooting information generation unit 203, a distribution request generation unit 204, a communication unit 230, and a display screen generation unit 206. . The data acquisition unit 201 acquires vehicle information related to the host vehicle on which the information terminal device 20 is mounted, and a captured image obtained by capturing the surroundings of the host vehicle. Based on the vehicle information acquired by the data acquisition unit 201, the traffic jam determination unit 202 determines whether the host vehicle is involved in traffic jam (step S103). The shooting information generation unit 203 generates shooting information to be transmitted to the concentration apparatus 10 based on the vehicle information and the shot image when the traffic determination unit 202 determines that the host vehicle is involved in the traffic jam. (Step S104). The distribution request generation unit 204 generates a distribution request for requesting the concentration device 10 for traffic congestion distribution information related to the planned travel point of the host vehicle (step S303). The communication unit 230 transmits the shooting information generated by the shooting information generation unit 203 and the distribution request generated by the distribution request generation unit 204 to the concentration device 10 (steps S105 and S304), and the concentration device according to the distribution request. The traffic jam distribution information distributed from 10 is received (step S501). Based on the traffic jam distribution information received by the communication unit 230, the display screen generation unit 206 generates a display screen including a captured image corresponding to the planned travel point of the host vehicle, and displays the display screen 40 mounted on the host vehicle. (Steps S503 and S504)). On the other hand, the concentration apparatus 10 functionally includes a photographing information collection unit 101, a storage unit 120, a traffic jam distribution information generation unit 103, and a communication unit 130. The shooting information collection unit 101 collects shooting information transmitted from each of the plurality of information terminal devices 20 (step S201). The storage unit 120 stores the shooting information collected by the shooting information collection unit 101 (step S202). The traffic jam distribution information generation unit 103 generates traffic jam distribution information including a captured image corresponding to a planned travel point of the vehicle 2 equipped with the information terminal device 20 that has transmitted the distribution request, based on the shooting information stored in the storage unit 120. Generate (steps S404 to S410). The communication unit 130 distributes the traffic congestion distribution information generated by the traffic congestion distribution information generation unit 103 to the information terminal device 20 that has transmitted the distribution request (step S411). Since it did in this way, the system which collects the picked-up image regarding a traffic jam and distributes it as needed can be implement | achieved.

(3) In step S303, the distribution request generation unit 204 generates a distribution request including information on the display device 40. In steps S <b> 404 to S <b> 410, the traffic jam distribution information generation unit 103 generates the traffic jam distribution information based on the shooting information stored in the storage unit 120 and information related to the display device 40 included in the distribution request. Since it did in this way, the congestion delivery information for the information terminal device 20 to produce | generate the suitable display screen with respect to the display apparatus 40 can be produced | generated in the concentration apparatus 10, and can be delivered.

(4) In step S503, the display screen generation unit 206 generates a map screen as the display screen, and displays captured images 4001 to 4003 corresponding to the point on the map screen in the vicinity of the planned traveling point of the host vehicle. Displayed (FIG. 19). Since it did in this way, the picked-up image regarding the traffic congestion which generate | occur | produced in the driving planned point of the own vehicle can be displayed in an easy-to-understand manner.

(5) Each of the plurality of information terminal devices 20 further includes a selection notification information generation unit 207 functionally. When a selection operation is performed on a captured image included in the display screen, the selection notification information generation unit 207 generates selection notification information including information on the captured image (step S601). The communication unit 230 transmits the selection notification information generated by the selection notification information generation unit 207 to the centralized device 10 (step S602). The traffic jam distribution information generation unit 103 selects a captured image included in the traffic jam distribution information based on the reception history of the selection notification information (step S409). Since it did in this way, an optimal picked-up image can be provided reflecting the utilization condition of each service user.

-Second Embodiment-
Next, another specific example of the present invention will be described in detail below as a second embodiment. In the second embodiment, an example will be described in which it is determined whether or not to collect received shooting information by performing a traffic jam determination with the centralized device 10.

  FIG. 20 is a functional block diagram showing functional configurations of the centralized device 10 and the information terminal device 20 according to the second embodiment of the present invention. The difference between the functional block diagram of FIG. 20 and the functional block diagram of the first embodiment shown in FIG. 3 is that the processing unit 100 functionally includes a traffic jam determination unit 105 in the centralized device 10. The traffic jam determination unit 105 is a part for determining whether or not the vehicle 2 that has transmitted the shooting information is involved in the traffic jam.

  FIG. 21 is a flowchart of imaging information transmission processing executed in the process 1001 of FIG. 11 in the second embodiment. The difference between the flowchart of FIG. 21 and the flowchart of the photographing information transmission process in the first embodiment shown in FIG. 4 is that step S103 is not executed. That is, in the present embodiment, when image data of a captured image is acquired from the camera device 60 in step S102, shooting information based on the captured image is generated and transmitted to the concentration device 10 in subsequent steps S104 and S105.

  FIG. 22 is a flowchart of imaging information collection processing executed in the process 1002 of FIG. 11 in the second embodiment. The difference between the flowchart of FIG. 22 and the flowchart of the photographing information collection process in the first embodiment shown in FIG. 5 is that the process of step S2011 is executed between steps S201 and S202.

  In step S2011, the traffic jam determination unit 105 determines whether the vehicle 2 that transmitted the shooting information is involved in the traffic jam based on the shooting information received by the communication unit 130 and collected by the shooting information collection unit 101 in step S201. Determine whether. For example, in the shooting information 301 of FIG. 12, if the detection status 321 included therein indicates a traffic jam or if the change in the position information 325 from the previously received shooting information is less than a predetermined value, the vehicle 2 is determined to be involved in a traffic jam. If it is determined in step S2011 that the host vehicle is involved in a traffic jam, the process proceeds to the next step S202, where the received shooting information is collected and stored in the collected data DB 122. Otherwise, the process proceeds to step S203 without collecting the received shooting information. Thereby, among the shooting information collected by the shooting information collection unit 101, shooting information transmitted from the vehicle 2 determined to be involved in the traffic jam by the traffic jam determination unit 105 is stored in the collected data DB 122.

  In the present embodiment, in the information terminal device 20, the processing unit 200 may not have the traffic jam determination unit 202 functionally. In this case, the shooting information transmitted from the information terminal device 20 to the concentration device 10 does not include a detection status indicating a traffic jam status. Therefore, the traffic jam determination unit 105 determines whether or not the vehicle 2 that has transmitted the shooting information is involved in the traffic jam based on information other than the detection status.

  According to the second embodiment of the present invention described above, each of the plurality of information terminal devices 20 includes a data acquisition unit 201, a shooting information generation unit 203, a distribution request generation unit 204, a communication unit 230, and a display screen generation. The unit 206 is functionally included. The shooting information generation unit 203 generates shooting information to be transmitted to the concentration apparatus 10 based on the vehicle information and the shot image acquired by the data acquisition unit 201 (step S104). On the other hand, the concentration apparatus 10 functionally includes a photographing information collection unit 101, a traffic jam determination unit 105, a storage unit 120, a traffic jam distribution information generation unit 103, and a communication unit 130. Based on the shooting information collected by the shooting information collection unit 101, the traffic jam determination unit 105 determines whether or not each vehicle 2 equipped with each of the plurality of information terminal devices 20 is involved in a traffic jam (step S2011). . The storage unit 120 stores the shooting information transmitted from the vehicle 2 determined to be involved in the traffic jam by the traffic jam determination unit 105 among the shooting information collected by the shooting information collection unit 101 (step S202). Even in this case, as in the first embodiment, when a traffic jam occurs, a captured image relating to the traffic jam can be appropriately provided to a necessary service user. In addition, it is possible to realize a system that collects captured images related to traffic jams and distributes them as necessary.

  In each of the first and second embodiments described above, each of the information terminal device 20 having the configuration as shown in FIG. Although the method of transmitting and receiving information has been described as an example, the form of the information terminal device 20 is not limited to this. For example, each function of the information terminal device 20 may be realized by an application on a smartphone, and information may be transmitted / received to / from the centralized device 10 using a similar transmission / reception method. Even if it does in this way, the effect similar to having demonstrated by 1st, 2nd embodiment is acquired.

  Further, in each of the first and second embodiments described above, the concentration device 10 that transmits and receives information such as shooting information, distribution request, and traffic jam distribution information to and from the information terminal device 20 is illustrated in FIG. It was described as a dedicated device having such a configuration. However, communication may be performed between a plurality of information terminal devices 20 by P2P communication, for example, and at least one of the information terminal devices 20 may perform the function of the centralized device 10. Even if it does in this way, the effect similar to having demonstrated by 1st, 2nd embodiment is acquired.

  12, 13, 14, 15, and 16, the case where the position information is described in the NMEA-0183 format format (Global Positioning System Fix Data) used in GPS is shown as an example. Is not limited to this. Any format may be used as long as the travel information of each vehicle can be expressed. For example, the position of each vehicle may be defined using a coordinate system such as a geocentric coordinate system centered on the earth.

  Each embodiment and modification described above are merely examples, and the present invention is not limited to these contents as long as the features of the invention are not impaired.

2 Vehicle 3 Network 10 Concentrating Device 20 Information Terminal Device 30 Wireless Communication Device 40 Display Device 50 Vehicle Sensor Device 60 Camera Device 70 Navigation Device 100 Processing Unit 101 Imaging Information Collection Unit 102 Distribution Request Acquisition Unit 103 Congestion Distribution Information Generation Unit 104 Selection Notification Information acquisition unit 105 Congestion determination unit 120 Storage unit 121 Road map data DB
122 Collected data DB
DESCRIPTION OF SYMBOLS 130 Communication part 200 Processing part 201 Data acquisition part 202 Congestion determination part 203 Shooting information generation part 204 Distribution request generation part 205 Congestion distribution information acquisition part 206 Display screen generation part 207 Selection notification information generation part 220 Storage part 221 Road map data DB
222 Image data DB
230 Communication Unit 1900 MPU
1910 Storage device 1911 Processing program 1920 Input / output interface 1930 MPU
1940 Storage device 1941 Processing program 1950 Input / output interface

Claims (7)

A plurality of information terminal devices respectively mounted on a plurality of vehicles;
A centralized device for communicating with each of the plurality of information terminal devices;
Each of the plurality of information terminal devices transmits, to the concentration device, a captured image at the time of traffic jam that captures the surroundings of the host vehicle equipped with the information terminal device,
The concentration device collects and accumulates captured images transmitted from the plurality of information terminal devices, and also stores the accumulated captured images in response to a distribution request transmitted from any of the plurality of information terminal devices. An information distribution system for distributing to the information terminal device. The information distribution system according to claim 1,
Each of the plurality of information terminal devices
A data acquisition unit that acquires vehicle information related to the host vehicle equipped with the information terminal device, and a captured image obtained by shooting the periphery of the host vehicle;
Based on the vehicle information acquired by the data acquisition unit, a traffic jam determination unit that determines whether the host vehicle is involved in traffic jam,
A shooting information generation unit that generates shooting information to be transmitted to the concentration device based on the vehicle information and the captured image when the traffic determination unit determines that the host vehicle is involved in a traffic jam When,
A distribution request generator for generating a distribution request for requesting the centralized device for traffic congestion distribution information related to the planned traveling point of the host vehicle;
The shooting information generated by the shooting information generation unit and the distribution request generated by the distribution request generation unit are transmitted to the centralized device, and traffic congestion distribution information distributed from the centralized device in response to the distribution request is received. A communication unit
Based on the traffic congestion distribution information received by the communication unit, a display screen generating unit that generates a display screen including a captured image corresponding to the planned traveling point of the host vehicle and outputs the display screen to a display device mounted on the host vehicle. And
The concentration device is
A shooting information collection unit for collecting the shooting information transmitted from each of the plurality of information terminal devices;
A storage unit for storing imaging information collected by the imaging information collection unit;
A traffic jam distribution information generating unit that generates the traffic jam distribution information including a captured image corresponding to a planned travel point of a vehicle equipped with the information terminal device that has transmitted the distribution request, based on the shooting information stored in the storage unit; ,
An information distribution system comprising: a distribution unit that distributes the congestion distribution information generated by the congestion distribution information generation unit to the information terminal device that has transmitted the distribution request. The information distribution system according to claim 1,
Each of the plurality of information terminal devices
A data acquisition unit that acquires vehicle information related to the host vehicle equipped with the information terminal device, and a captured image obtained by shooting the periphery of the host vehicle;
Based on the vehicle information and the captured image, a shooting information generation unit that generates shooting information to be transmitted to the concentration device;
A distribution request generator for generating a distribution request for requesting the centralized device for traffic congestion distribution information related to the planned traveling point of the host vehicle;
The shooting information generated by the shooting information generation unit and the distribution request generated by the distribution request generation unit are transmitted to the centralized device, and traffic congestion distribution information distributed from the centralized device in response to the distribution request is received. A communication unit
Based on the traffic congestion distribution information received by the communication unit, a display screen generating unit that generates a display screen including a captured image corresponding to the planned traveling point of the host vehicle and outputs the display screen to a display device mounted on the host vehicle. And
The concentration device is
A shooting information collection unit for collecting the shooting information transmitted from each of the plurality of information terminal devices;
Based on the shooting information collected by the shooting information collection unit, a traffic jam determination unit that determines whether or not each vehicle equipped with each of the plurality of information terminal devices is involved in a traffic jam,
Of the shooting information collected by the shooting information collection unit, a storage unit for storing shooting information transmitted from a vehicle determined to be involved in a traffic jam by the traffic jam determination unit;
A traffic jam distribution information generating unit that generates the traffic jam distribution information including a captured image corresponding to a planned travel point of a vehicle equipped with the information terminal device that has transmitted the distribution request, based on the shooting information stored in the storage unit; ,
An information distribution system comprising: a distribution unit that distributes the congestion distribution information generated by the congestion distribution information generation unit to the information terminal device that has transmitted the distribution request. In the information delivery system according to any one of claims 1 to 3,
The distribution request generation unit generates the distribution request including information on the display device,
The traffic congestion distribution information generating unit generates the traffic congestion distribution information based on shooting information stored in the storage unit and information on the display device included in the distribution request. . In the information delivery system according to any one of claims 1 to 3,
The display screen generation unit generates a map screen as the display screen, and displays a captured image corresponding to the point on the map screen in the vicinity of the planned traveling point of the host vehicle. Distribution system. In the information delivery system according to any one of claims 1 to 3,
Each of the plurality of information terminal devices further includes a selection notification information generation unit that generates selection notification information including information about the captured image when a selection operation is performed on the captured image included in the display screen.
The communication unit transmits the selection notification information generated by the selection notification information generation unit to the centralized device;
The information distribution system, wherein the traffic jam distribution information generation unit selects a captured image included in the traffic jam distribution information based on a reception history of the selection notification information. An information terminal device mounted on a vehicle,
A data acquisition unit that acquires vehicle information related to the vehicle and a captured image obtained by imaging the periphery of the vehicle;
Based on the vehicle information acquired by the data acquisition unit, a traffic congestion determination unit that determines whether or not the vehicle is involved in traffic congestion,
A shooting information generation unit that generates shooting information based on the vehicle information and the shot image when the traffic determination unit determines that the vehicle is involved in a traffic jam;
A distribution request generation unit that generates a distribution request for requesting traffic distribution information regarding the planned traveling point of the vehicle;
A communication unit that transmits the shooting information generated by the shooting information generation unit and the distribution request generated by the distribution request generation unit, and that receives traffic congestion distribution information distributed in response to the distribution request;
Based on the traffic jam distribution information received by the communication unit, a display screen generation unit that generates a display screen including a captured image corresponding to the planned travel point of the vehicle and outputs the display screen to a display device mounted on the vehicle; An information terminal device comprising:

Images