JP2018169411A - Image transmission system, terminal, image transmission method, and image transmission program - Google Patents

Abstract

To make it possible to transmit, before reaching a required position, an image appropriate at the time of reaching the required position.SOLUTION: An image transmission device 101 includes: an acquisition part 102 for acquiring an image and location information on where the image was photographed; a recording part 103 for recording the image and the location information in association with each other; and a transmission part 104 for transmitting the image, which is associated with the location information corresponding to a predetermined position and which is adapted to a situation of the predetermined position at the time when a terminal 111 reaches the predetermined position, to the terminal 111 when acquiring, from the terminal 111, an acquisition request of the image photographed at the predetermined position.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an image transmission system, a terminal, an image transmission method, and an image transmission program that transmit a captured image to a terminal. However, utilization of this invention is not restricted to an image transmission system, a terminal, an image transmission method, and an image transmission program.

  Conventionally, by uploading image data captured by a camera mounted on a vehicle to a server, the server collects the image, selects the latest image for each point such as an intersection from the image collected by the server, and travels There has been proposed a system for delivering an image to a terminal of a vehicle inside (see, for example, Patent Document 1 below).

International Publication No. 2008/047449

  In the above conventional technology, the latest image can be acquired by the terminal. However, when the user actually arrives at the point, the time is different from the acquired image, and the traffic situation, the driving lane (shooting lane) As an example, there is a problem that it is difficult for the user to grasp the situation of the point even if the user looks at the image.

  In order to solve the above-described problems and achieve the object, an image transmission system according to claim 1 of the present invention includes: a recording unit in which an image and position information where the image is captured are recorded in association; When an acquisition request for an image captured at a predetermined point is acquired, the situation of the point at the time when the terminal reaches the predetermined point is associated with the position information corresponding to the predetermined point. Transmitting means for transmitting an adapted image to the terminal.

  Further, the terminal according to the invention of claim 5 transmits a camera for capturing an image, the image, position information and date / time information for capturing the image, and corresponds to a time at which a predetermined point is reached. And a transmission unit that transmits an acquisition request for the image associated with date information, a reception unit that receives the image corresponding to the acquisition request, and a display unit that displays the received image. And

  An image transmission method carried out by the image transmission apparatus according to the invention of claim 6 includes a recording step of associating and recording an image and position information obtained by photographing the image, and an image photographed at a predetermined point from the terminal. When the acquisition request is acquired, an image that is associated with the position information corresponding to the predetermined point and that matches the situation of the point at the time when the terminal reaches the predetermined point is transmitted to the terminal. And a transmitting step.

  An image transmission method according to a seventh aspect of the present invention is the image transmission method implemented by the terminal, wherein an image capturing step for capturing an image, the image, position information and date / time information for capturing the image are transmitted, and A transmission step of transmitting an acquisition request for the image associated with the date and time information corresponding to the time to reach a predetermined point; a reception step of receiving the image corresponding to the acquisition request; and the received image And a display step for displaying.

  An image transmission program according to an invention of claim 8 causes a computer to execute the image transmission method according to claim 6 or 7.

FIG. 1 is a block diagram illustrating an example of a functional configuration of the image transmission system according to the embodiment. FIG. 2 is a flowchart illustrating an example of a processing procedure of the image transmission system according to the embodiment. FIG. 3 is a block diagram illustrating an example of a hardware configuration of the navigation device. FIG. 4 is a chart showing an example of a database recorded in the image transmission apparatus. FIG. 5 is a chart for explaining a method of selecting a combination of database parameters when specifying an image. FIG. 6 is a flowchart illustrating the processing contents from image capturing to database storage according to the first embodiment. FIG. 7 is a flowchart of the image transmission process corresponding to the request according to the first embodiment. FIG. 8 is a diagram illustrating an example of an image displayed on the terminal. (Part 1) FIG. 9 is a diagram illustrating an example of an image displayed on the terminal. (Part 2) FIG. 10 is a diagram illustrating an example of an image displayed on the terminal. (Part 3) FIG. 11 is a flowchart illustrating the processing contents from image capturing to database storage according to the second embodiment. FIG. 12 is a flowchart of the image transmission processing content corresponding to the request according to the second embodiment.

(Embodiment)
Exemplary embodiments of an image transmission system, a terminal, an image transmission method, and an image transmission program according to the present invention are explained in detail below with reference to the accompanying drawings.

  FIG. 1 is a block diagram illustrating an example of a functional configuration of the image transmission system according to the embodiment. An image transmission system 100 according to an embodiment includes an image transmission device 101 and a terminal 111.

  The image transmission apparatus 101 includes an acquisition unit 102, a recording unit 103, and a transmission unit 104. In the embodiment, a single server has each of these functions. In addition, a configuration using a plurality of servers distributed by function may be used, and further, a configuration in which a single client (terminal 111) has the function of the image transmission apparatus 101 without using a server may be used.

  The acquisition unit 102 is connected to the terminal 111 via a network 121 such as the Internet, and acquires an image and position information and date / time information on the image taken from the terminal 111. The recording unit 103 records the image, position information, and date / time information in association with each other in a memory (not shown). As a result, a database including a plurality of images, positions, dates and times is created in the recording unit 103.

  When the transmission unit 104 acquires an acquisition request for an image shot at a predetermined point from the terminal 111, the transmission unit 104 is associated with position information corresponding to the predetermined point, and at a time when the terminal 111 reaches the predetermined point. The image associated with the corresponding date information is read from the recording unit 103 and transmitted to the terminal 111.

  The terminal 111 includes a camera 112, a communication unit 113, and a display unit 114. This terminal 111 is mounted on, for example, a moving body (vehicle). The camera 112 captures an image including a road when the vehicle moves and transmits the image to the image transmission apparatus 101 via the communication unit 113. At this time, the terminal 111 transmits the image shooting position (for example, the latitude and longitude measured by the GPS) and the shooting date / time information together with the image to the image transmission apparatus 101.

  In addition, the terminal 111 requests the image transmission apparatus 101 to acquire an image captured at a desired predetermined point. The terminal 111 receives the image transmitted from the image transmission apparatus 101 in response to this acquisition request via the communication unit 113. The received image of the desired position is displayed on the display unit 114.

  Here, it is assumed that the terminal 111 requests acquisition of an image of a predetermined point on the planned route on which the vehicle travels by route search or the like. In this case, the terminal 111 or the image transmission device 101 calculates the time when the vehicle reaches a predetermined point. Then, the transmission unit 104 transmits the image at this point at the time when the predetermined point is reached to the terminal 111. Accordingly, the terminal 111 can acquire an image when the predetermined point is reached before reaching the predetermined point on the planned route.

  The image transmission apparatus 101 transmits an image of a predetermined point at a time when the vehicle reaches a predetermined point when the terminal 111 requests, to the terminal 111. The image transmission apparatus 101 is not limited to transmitting an image in response to such a request from the terminal 111 (user side). For example, when an event such as a sudden weather change or a sudden accident occurs, the image transmission apparatus 101 may dynamically distribute a new image corresponding to the occurrence of the event to the terminal 111.

  In addition, either the terminal 111 or the image transmission apparatus 101 may have a function of analyzing a captured image. By analyzing the captured image, traffic congestion at a predetermined point and information on the driving lane are calculated. When the image is analyzed by the terminal 111, the analysis information (congestion status, travel lane) is transmitted together with the image to the image transmission device 101, and the image transmission device 101 associates the position, date and time, and analysis information together with the image into the recording unit. 103.

  When the image transmitting apparatus 101 performs image analysis, the image received from the terminal 111, the position, and date / time information are recorded in the recording unit 103 in association with analysis information obtained by image analysis.

  In addition, the terminal 111 or the image transmission apparatus 101 may acquire weather information corresponding to the position of the image and record it in association with the image. This makes it possible to improve image analysis accuracy using visibility information such as rainfall, snowfall, and dense fog indicated by climate information, and road surface conditions such as flooding, snow accumulation, and freezing.

  Thereby, the weather information is stored in the recording unit 103 together with the image and the analysis information after the image analysis. Then, the image transmission apparatus 101 can transmit to the terminal the traffic situation according to the climate when the terminal 111 reaches the requested position and the information on the traveling lane together with the image.

  FIG. 2 is a flowchart illustrating an example of a processing procedure of the image transmission system according to the embodiment. The processing of each of the image transmission apparatus 101 and the terminal 111 is described.

  In the processing on the terminal 111 side, the vehicle performs positioning by GPS or the like while moving, and takes an image including a road by the camera 112 at a predetermined position (step S201). The shooting position of the shot image may be periodically performed every fixed time, may be performed every time a set position such as an intersection is reached, or may be performed at an arbitrary place by a user operation.

  Next, the terminal 111 transmits the captured image to the image transmission apparatus 101 via the communication unit 113 (step S202). At this time, the imaging position and time obtained by positioning are added and transmitted to the image transmission apparatus 101.

  On the image transmission apparatus 101 side, the acquisition unit 102 receives an image transmitted from the terminal 111 (step S211). The recording unit 103 records the shooting position and time as an association database for this image (step S212).

  Thereafter, when the terminal 111 requests the image transmission apparatus 101 to transmit an image at a predetermined position at a predetermined time (step S203), the image transmission apparatus 101 transmits an image at the position and time according to the request to the terminal 111. (Step S213).

  At this time, the terminal 111 or the image transmission device 101 may calculate a position according to the request and transmit an image according to the position to the terminal 111. For example, when the vehicle of the terminal 111 is moving, the terminal 111 or the image transmission device 101 calculates a time when the terminal (vehicle) 111 moves from the current position to a predetermined position, and a predetermined time corresponding to this time. The position image is read from the recording unit 103 and transmitted to the terminal 111.

  The terminal 111 displays and outputs the received image (step S204). Thereby, the user of the terminal 111 can acquire an image when it reaches a predetermined position on the planned route. The user can predict the traffic situation based on this image.

  Further, if the image taken by the terminal 111 or the image transmitting apparatus 101 is subjected to image analysis, and analysis information (for example, traffic congestion, driving lane) is recorded together with the image, the requested terminal 111 is added to the image. It becomes possible to send analysis information.

  Furthermore, if the terminal 111 or the image transmitting apparatus 101 is configured to record the weather information at the time of image acquisition together with the image, the terminal 111 displays an image corresponding to the climate at the time when the terminal 111 reaches a predetermined point. 111 can be transmitted. As a result, it is possible to provide an image and analysis information suitable for the situation when the terminal 111 actually reaches a predetermined point.

  According to the above embodiment, the image transmission device can database the images acquired from the terminal according to the shooting position and time, and can transmit the image corresponding to the position and time requested from the terminal to the requesting terminal. . As a result, the terminal can acquire in advance images at unreachable positions and times. In addition, it is also possible to acquire road conditions (congestion conditions) and weather information at unreachable positions, and in advance images and road conditions suitable for the situation when the terminal actually reached a predetermined point It can be provided to the terminal.

  Next, Example 1 of the present invention will be described. In the first embodiment, a navigation device 300 is mounted on a user's vehicle and is connected to a server for communication. An example in which the server executes the function of the image transmission apparatus 101 will be described.

(Hardware configuration of navigation device 300)
FIG. 3 is a block diagram illustrating an example of a hardware configuration of the navigation device. In FIG. 3, a navigation device 300 includes a CPU 301, ROM 302, RAM 303, magnetic disk drive 304, magnetic disk 305, optical disk drive 306, optical disk 307, audio I / F (interface) 308, microphone 309, speaker 310, input device 311, A video I / F 312, a display 313, a communication I / F 314, a GPS unit 315, various sensors 316, and a camera 317 (corresponding to the camera 112 in FIG. 1) are provided. Each component 301 to 317 is connected by a bus 320.

  The CPU 301 governs overall control of the navigation device 300. The ROM 302 records a boot program and an image transmission program. The RAM 303 is used as a work area for the CPU 301. That is, the CPU 301 controls the entire navigation device 300 by executing various programs recorded in the ROM 302 while using the RAM 303 as a work area.

  The magnetic disk drive 304 controls the reading / writing of the data with respect to the magnetic disk 305 according to control of CPU301. The magnetic disk 305 records data written under the control of the magnetic disk drive 304. As the magnetic disk 305, for example, an HD (hard disk) or an FD (flexible disk) can be used.

  The optical disk drive 306 controls reading / writing of data with respect to the optical disk 307 according to the control of the CPU 301. The optical disk 307 is a detachable recording medium from which data is read according to the control of the optical disk drive 306. As the optical disc 307, a writable recording medium can be used. In addition to the optical disk 307, an MO, a memory card, or the like can be used as a removable recording medium.

  Examples of information recorded on the magnetic disk 305 and the optical disk 307 include map data, vehicle information, images, and travel history. Map data is used when searching for routes in the navigation system. Background data that represents features (features) such as buildings, rivers, ground surfaces, and energy supply facilities, and road shape data that represents road shapes with links and nodes. Vector data including

  The audio I / F 308 is connected to a microphone 309 for audio input and a speaker 310 for audio output. The sound received by the microphone 309 is A / D converted in the sound I / F 308. For example, the microphone 309 is installed in a dashboard portion of a vehicle, and the number thereof may be one or more. From the speaker 310, a sound obtained by D / A converting a predetermined sound signal in the sound I / F 308 is output.

  Examples of the input device 311 include a remote controller having a plurality of keys for inputting characters, numerical values, various instructions, and the like, a keyboard, and a touch panel. The input device 311 may be realized by any one form of a remote control, a keyboard, and a touch panel, but may be realized by a plurality of forms.

  The video I / F 312 is connected to the display 313. Specifically, the video I / F 312 is output from, for example, a graphic controller that controls the entire display 313, a buffer memory such as a VRAM (Video RAM) that temporarily records image information that can be displayed immediately, and a graphic controller. And a control IC for controlling the display 313 based on the image data to be processed.

  The display 313 displays icons, cursors, menus, windows, or various data such as characters and images. As the display 313, for example, a TFT liquid crystal display, an organic EL display, or the like can be used.

  The camera 317 captures an image including, for example, a road outside the vehicle. The image may be either a still image or a moving image. For example, the outside of the vehicle is photographed by the camera 317, and the photographed image is analyzed by the CPU 301, or a recording medium such as the magnetic disk 305 or the optical disk 307 via the video I / F 312. Or output to

  The communication I / F 314 is connected to a network via wireless and functions as an interface between the navigation device 300 and the CPU 301. Communication networks that function as networks include in-vehicle communication networks such as CAN and LIN (Local Interconnect Network), public line networks and mobile phone networks, DSRC (Dedicated Short Range Communication), LAN, and WAN. The communication I / F 314 is, for example, a public line connection module, an ETC (non-stop automatic fee payment system) unit, an FM tuner, a VICS (Vehicle Information and Communication System) / beacon receiver, or the like.

  The GPS unit 315 receives radio waves from GPS satellites and outputs information indicating the current position of the vehicle. The output information of the GPS unit 315 is used when the CPU 301 calculates the current position of the vehicle together with output values of various sensors 316 described later. The information indicating the current position is information for specifying one point on the map data such as latitude / longitude and altitude.

  The various sensors 316 output information for determining the position and behavior of the vehicle, such as a vehicle speed sensor, an acceleration sensor, an angular velocity sensor, and a tilt sensor. The output values of the various sensors 316 are used for the calculation of the current position of the vehicle by the CPU 301 and the amount of change in speed and direction.

(Server configuration example)
The server used as the image transmission apparatus 101 has the same configuration as that in FIG. In this server, the GPS unit 315, the various sensors 316, the camera 317, etc. shown in FIG. 3 are unnecessary.

  The image transmission apparatus 101 shown in FIG. 1 acquires an image by the CPU 301 executing a predetermined program using programs and data recorded in the ROM 302, RAM 303, magnetic disk 305, optical disk 307, etc. shown in FIG. Realize functions such as image analysis and analysis result transmission. Further, the function of the communication unit 113 in FIG. 1 can be realized by using the communication I / F 314 in FIG. 3.

  Further, the navigation apparatus 300 may have the function of the image transmission apparatus 101 shown in FIG. In this case, since the navigation apparatus 300 mounted on the user's vehicle described above realizes the function of the image transmission apparatus 101, a server can be eliminated.

(Scheduled route calculation and image analysis processing)
In the first embodiment, an example will be described in which the terminal 111 (navigation device 300) mounted on the vehicle calculates a planned travel route and performs image analysis.

  The navigation device 300 guides a route to the destination, for example, a candidate route having a short time and distance based on the current position of the vehicle and the setting of the destination. The user travels by setting one of the candidate routes as a scheduled route according to time or distance.

  Then, when requesting the acquisition of the image at the predetermined position described above, the navigation apparatus 300 calculates the time to reach the predetermined position on the selected scheduled route, and transmits it to the image transmission apparatus 101 together with the image.

  In addition, every time an image is taken, the navigation apparatus 300 analyzes the image and determines the road conditions (congestion situation, travel lane, etc.) of the road included in the image. In this image analysis, a range similar to a road in the image is specified by image processing. The range of the road is specified based on the color of the road surface, the lane (line) on the road, or the like. In addition, the traveling lane and the traffic jam condition (degree of traffic jam) are specified based on the lane in the image, the number of other vehicles, the inter-vehicle distance, and the like. At this time, by calculating including the traveling speed, it can be determined that the vehicle is congested (congested) when, for example, a large number of vehicles are photographed in the image at a speed close to zero.

(Example database)
FIG. 4 is a chart showing an example of a database recorded in the image transmission apparatus. The database 400 preserve | saved at the recording part 103 is shown. The database 400 includes a shooting ID 401 for each captured image and various image information parameters 402 to 412.

  The recording unit 103 assigns an ID 401 to each image received from the terminal 111, and the latitude 402, longitude 403, road link ID 404, shooting date 405, shooting time 406, time zone 407, traffic jam assigned to the image for each ID 401. The degree 408, the traveling lane 409, the weather 410, the road surface condition 411, and the image data 412 are recorded in the recording unit 103 in association with each other.

  Latitude 402 and longitude 403 are positions at the time of image capture transmitted from the terminal 111. The road link ID 404 is an identifier for each road (link) on the map data included in the terminal 111 (navigation apparatus 300) or the image transmission apparatus 101 (server), and is a road link ID located at the time of image capturing.

  The shooting date 405 and the shooting time 406 are the date and time at the time of image shooting transmitted from the terminal 111. The time zone 407 is set based on the shooting time 406 such as a time zone of one day, for example, daytime or night.

  The congestion degree 408 is a part of analysis information obtained by image analysis of an image taken by the terminal 111 or the image transmission apparatus 101. Further, if there is traffic jam information at the shooting position without image analysis, it may be acquired from the outside. For example, smoothness, low congestion, busy, high congestion, and the like are set as the degree of congestion 408.

  The travel lane 409 is a part of analysis information obtained by image analysis of an image taken by the terminal 111 or the image transmission device 101. For example, one lane, left, right, center (lane), etc. are set. . Further, this information may be used as long as the travel lane 409 can be obtained based on the position of the vehicle on the map data without image analysis.

  As for the weather 410, the image transmission apparatus 101 acquires weather information from the outside, and for example, weather information at the photographing position, for example, clear, cloudy, rain, heavy rain, snow, fog, and the like are set.

  The road surface condition 411 is a part of analysis information obtained by image analysis of an image taken by the terminal 111 or the image transmission device 101. For example, snow cover, freezing, submergence, etc. are usually set. Further, this information may be used if the road surface condition at the photographing position can be obtained from the outside without image analysis. In the image data 412, a file path to the captured image is set.

  FIG. 4 illustrates only two image parameters, but the image transmission apparatus 101 (server) assigns each image and parameter each time an image is output from the terminal 111 (navigation apparatus 300). The database 400 can be constructed.

  Then, the database 400 searches the latitude 402 and longitude 403 as the requested predetermined positions, and searches for the ID 401 whose time 406 matches this, and the image data 412 of this ID 401 can be transmitted to the terminal 111. In addition, information of a plurality of other parameters 402 to 411 corresponding to the ID 401 can be added and transmitted to the terminal 111.

  That is, the terminal 111 (navigation device 300) requests an image at a predetermined position requested to the image transmission device 101, not only whether the image analysis is performed by the device itself (for example, performed by the image transmission device 101). In this case, the parameters 402 to 411 can be designated and transmitted. As a result, the image transmission apparatus 101 can search the database 400 for images that match the parameters 402 to 411 specified by the terminal 111.

(Specific example of transmitted image)
FIG. 5 is a chart for explaining a method of selecting a combination of database parameters when specifying an image. A processing example in which the image transmission apparatus 101 (server) selects an image that matches the position and date and time requested from the terminal 111 will be described.

  The image transmission apparatus 101 selects, from the database 400, the image information parameters acquired for distribution that match the image information parameters 401 to 411 corresponding to the image data stored in the database 400, and sends them to the terminal 111. The image to be transmitted.

  If there are a plurality of images that match the request from the terminal 111, the latest one of the shooting dates and times 405 and 406 is selected from the parameters and transmitted to the terminal 111.

  On the other hand, when there is no image having a parameter that matches the request (position, date, etc.) of the terminal 111, the image is selected with priority given to the high-value parameter and transmitted. In this example, in addition to the time (date 405, time 406) of a predetermined position (latitude 402, longitude 403) as a request from the terminal 111, a road surface condition 411, weather 410, congestion degree 408, time zone 407, it is assumed that there is a request for a driving lane 409.

  In the example shown in FIG. 5, the image transmission apparatus 101 sets the road surface condition 411, the weather 410, the congestion degree 408, the time zone 407, and the travel in the descending order of priority among the high-value parameters described in FIG. 4. Use lane 409.

  Then, as shown in FIG. 5, the image transmission apparatus 101 transmits the high-value parameters requested by the terminal 111 to the terminal 111 using the priority order according to the parameter match / mismatch of each image in the database 400. An image (image data 412 corresponding to ID 401 in FIG. 4) is determined.

  For example, as the image having the highest priority (priority order 1), the image requested by the terminal 111 that matches the parameters of the road surface condition 411, the weather 410, the congestion degree 408, the time zone 407, and the travel lane 409 is selected. To do. For example, the priority 2 parameter is the parameter of the driving lane 409 with the lowest priority that does not match the request of the terminal 111, but the priority 3 parameter has a time zone 407 with a higher priority than the driving lane 409. The parameter does not match the request of the terminal 111, and these are set as the priorities 2, 3 respectively.

  Even when there are no images having parameters that match the request (position, date, etc.) of the terminal 111 as described above, if there are a plurality of images with the same conditions, the shooting dates 405, 406 are the same. The latest one is selected and transmitted to the terminal 111.

(Example of processing of image capturing to database storage in embodiment 1)
FIG. 6 is a flowchart illustrating the processing contents from image capturing to database storage according to the first embodiment. In the first embodiment, the image captured by the terminal 111 (navigation apparatus 300) is subjected to image analysis, and processing for transmitting analysis information to the image transmission apparatus 101 is performed.

  First, the terminal 111 such as a navigation device always measures the current position using GPS or the like (step S601). When the vehicle moves, the date and time and the position (latitude and longitude) for each movement are specified, and the vehicle position matching process with respect to the traveling road on the map data is performed (step S602).

  Then, an image including a road is taken by the camera 112 at a predetermined position (step S603). The shooting position of the shot image may be periodically performed every fixed time, may be performed every time a set position such as an intersection is reached, or may be performed at an arbitrary place by a user operation.

  Thereafter, the terminal 111 analyzes the captured image (step S604). Through this image analysis, the terminal 111 generates road analysis information included in the image. For example, as described above, the terminal 111 can obtain the road surface condition 411 at the photographing position, the weather 410, the degree of congestion 408, the time zone 407, and the travel lane 409 by image analysis.

  Then, the terminal 111 transmits (uploads) the analysis information to the image transmission apparatus 101 together with the captured image (and the date / time and position) (step S605).

  On the image transmitting apparatus 101 side such as a server, an image transmitted from the terminal 111 (navigation apparatus 300) and analysis information are received (step S611). Then, the received image (and date / time and position) is associated with the analysis information (step S612). Then, the image is stored in the database 400 (step S613), and the analysis information is stored in the database 400 (step S614).

(Example of image transmission processing in the first embodiment)
FIG. 7 is a flowchart of the image transmission process corresponding to the request according to the first embodiment. For example, the terminal 111 (navigation device 300) performs a route search by setting the destination, performs a process of presenting a planned route from the current location to the destination, and sends a predetermined guidance point to the server (image transmission device 101). An example of performing an image acquisition request will be described.

  First, the terminal 111 always measures the current position using GPS or the like (step S701). When the vehicle moves, the date and time and the position (latitude and longitude) for each movement are specified, and the vehicle position matching process on the travel road on the map data is performed (step S702).

  When the destination is set by operating the terminal 111 (step S703), the terminal 111 performs a route search (step S704). In this route search, a plurality of candidates for a planned route from the current position of the vehicle to the destination are calculated, and an optimal planned route is presented according to the settings such as time and distance. At the time of this route calculation, traffic jam prediction of the planned route is performed based on traffic jam information and the like. In addition, prediction of passage of a guide point such as an intersection on the planned route (time, etc.) and processing of a lane (guide lane) passing on the planned route are performed.

  Thereafter, when the vehicle travels on the planned route, the terminal 111 requests the server (image transmission apparatus 101) to acquire an image every time it reaches a guide point such as an intersection (step S705). At this time, the terminal 111 also transmits information on the location of the guidance point, the date and time of arrival at the guidance point, prediction of traffic congestion at the guidance point, information on the guidance lane, and the like as guidance point information to the server (image transmission apparatus 101). To do. Thereafter, the terminal 111 waits to receive image data from the server (image transmission apparatus 101).

  On the server (image transmission apparatus 101) side, when an image acquisition request is received from the terminal 111 (navigation apparatus 300) (step S711), the database 400 is inquired (step S712). Then, image data corresponding to the information on the guide point received from the terminal 111 (the position of the guide point, the date and time when the guide point is reached, the traffic congestion prediction of the guide point, the information on the guide lane, etc.) is acquired (step S713). 111 (step S714).

  The terminal 111 acquires the image data transmitted from the server (image transmission apparatus 101) (step S706), and displays this image data (step S707). The image data to be displayed is image data corresponding to the guide point requested from the server. At this time, an image corresponding to the information on the guide point included in the request to the server, for example, an image corresponding to the position of the guide point and the date and time when the guide point is reached can be displayed. In addition, by sending to the server information on traffic jam forecasts, guidance lanes, etc. obtained from the route search on the terminal 111 side at the time of requesting an image, the actual situation when the vehicle actually arrives at the desired position It is possible to display an image suitable for the situation.

  8 to 10 are diagrams showing examples of images displayed by the terminal. It is an example of a display of the image which the terminal 111 (navigation apparatus 300) received from the server (image transmission apparatus 101).

  The image shown in FIG. 8 is an example of an image when the road surface is normal, the weather is rain, the degree of congestion is busy, the time zone is daytime, and the travel lane is right. The image shown in FIG. 9 is an example in the case where the road surface is normal, the weather is fine, the degree of congestion is smooth, the time zone is night, and the travel lane is one lane. The image shown in FIG. 10 is an example when the road surface is frozen, the weather is clear, the degree of congestion is smooth, the time zone is daytime, and the travel lane is one lane.

  As shown in FIGS. 8 to 10, the position of the guide point requested by the terminal 111 (navigation device 300) and the date and time of arrival, as well as the prediction of traffic congestion at the guide point, the guide lane, By transmitting information such as the weather, the terminal 111 can receive and display an image suitable for the actual situation when it actually arrives at a desired position from the server (image transmission apparatus 101).

  In addition to the position of the guidance point included in the acquisition request from the terminal 111 and the arrival date and time, the image transmission apparatus 101 also retrieves an image that matches parameters such as traffic jam prediction, guidance lane, and weather from the database 400. Acquire and transmit to the terminal 111.

  Further, even when the image transmitting apparatus 101 cannot acquire an image matching the parameter included in the acquisition request from the database 400, the image transmitting apparatus 101 sets the priority of the information (parameter) having high value as illustrated in FIG. Based on this, an image to be acquired from the database 400 is determined. For example, in the image shown in FIG. 8, it is assumed that there is no image that matches only the travel lane requested from the terminal 111. In this case, since the driving lane 409 shown in FIG. 5 has the lowest priority, the image of the priority order 2 in which the remaining three parameters (the road surface condition 411, the weather 410, and the time zone 407) match is retrieved from the database 400. Read and send to terminal 111. As a result, the terminal 111 can acquire an image close to the situation when the desired position is reached.

  According to Example 1 demonstrated above, the terminal can acquire the image of the desired position from an image transmission apparatus. In particular, the terminal can acquire an image of the time at which the terminal arrives at the scheduled position before arrival by specifying the position and date and time at the time of request. As a result, the terminal can acquire the image closest to the predicted situation of the passage date and time of the desired position.

  Further, if the terminal is configured to transmit information related to a desired point to the server together with a request for image acquisition, the server can transmit an image suitable for the acquired information to the terminal. For example, information on traffic jam prediction at a guide point, guide lane, weather at arrival, and the like are transmitted. As a result, the server obtains in advance an image with higher prediction accuracy that fits the information, that is, an image close to the situation when the terminal has actually reached the requested acquisition position, before reaching the requested position. become able to.

  Next, a second embodiment of the present invention will be described. The second embodiment is different from the first embodiment in that a server (image transmission apparatus 101) performs an image analysis process. Other configurations and processes are the same as those in the first embodiment.

(Example of processing of image capturing to database storage in embodiment 2)
FIG. 11 is a flowchart illustrating the processing contents from image capturing to database storage according to the second embodiment.

  First, the terminal 111 such as a navigation device always measures the current position using GPS or the like (step S1101). When the vehicle moves, the date and time and the position (latitude and longitude) for each movement are specified, and the vehicle position matching process with respect to the traveling road on the map data is performed (step S1102).

  Then, an image including a road is taken by the camera 112 at a predetermined position (step S1103). The shooting position of the shot image may be periodically performed every fixed time, may be performed every time a set position such as an intersection is reached, or may be performed at an arbitrary place by a user operation.

  Then, the terminal 111 transmits (uploads) the captured image (and the date / time and position) to the image transmission apparatus 101 (step S1104).

  The image transmitting apparatus 101 side such as a server receives an image transmitted from the terminal 111 (navigation apparatus 300) (step S1111).

  Then, the image transmission apparatus 101 performs image analysis on the received image (step S1102). By this image analysis, the image transmission apparatus 101 generates road analysis information included in the image. For example, as described above, the image transmission apparatus 101 can obtain the road surface condition 411 at the photographing position, the weather 410, the congestion degree 408, the time zone 407, and the traveling lane 409 by image analysis.

  Then, the image transmission apparatus 101 associates the received image (and date / time and position) with the analysis information (step S1113). Then, the image is stored in the database 400 (step S1114), and the analysis information is stored in the database 400 (step S1115).

(Example of image transmission processing in the second embodiment)
FIG. 12 is a flowchart of the image transmission processing content corresponding to the request according to the second embodiment. For example, the terminal 111 (navigation apparatus 300) sets a destination, and the image transmission apparatus 101 performs a route search and presents a planned route from the current location to the destination on the terminal 111. Also, an example in which the image transmission apparatus 101 transmits an image for each predetermined guide point on the planned route to the terminal 111 will be described.

  First, the terminal 111 always measures the current position using GPS or the like (step S1201). When the vehicle moves, the date and time and the position (latitude / longitude) for each movement are specified, and the position of the vehicle is matched with the traveling road on the map data (step S1202).

  Then, when the destination is set by the user's operation or the like (step S1203), the terminal 111 requests the server (image transmission apparatus 101) for guidance on the route (and traffic jam prediction) of the planned route (step S1204). . At this time, the terminal 111 notifies the image transmission apparatus 101 of information on the current location and the destination.

  When the server (image transmission apparatus 101) receives a route guidance (and traffic jam prediction) guidance request from the terminal 111 (step S1211), the server (image transmission device 101) performs a route search (step S1212). In this route search, a plurality of candidates for a planned route from the current position of the vehicle to the destination are calculated, and an optimal planned route is presented according to the settings such as time and distance. At the time of this route calculation, traffic jam prediction of the planned route is performed based on traffic jam information and the like. In addition, prediction of passage of a guide point such as an intersection on the planned route (time, etc.) and processing of a lane (guide lane) passing on the planned route are performed.

  Then, the server (image transmission apparatus 101) generates route route guidance, congestion prediction, travel guidance point information, and guide lane information, and notifies the terminal 111 (step S1213).

  When the terminal 111 obtains each information of the route guidance of the planned route, the traffic jam prediction, the guidance point at the time of traveling, and the guide lane from the server (image transmission apparatus 101) (step S1205), the traffic of the planned route of the route guidance and the traffic jam of the planned route. Information is displayed (step S1206).

  When the vehicle travels on the planned route, the terminal 111 requests the server (image transmission apparatus 101) to acquire an image every time it reaches a guidance point such as an intersection (step S1207). At this time, the terminal 111 also transmits information on the location of the guidance point, the date and time of arrival at the guidance point, prediction of traffic congestion at the guidance point, information on the guidance lane, and the like as guidance point information to the server (image transmission apparatus 101). To do. Thereafter, the terminal 111 waits to receive image data from the server (image transmission apparatus 101).

  On the server (image transmission apparatus 101) side, when receiving an image acquisition request from the terminal 111 (navigation apparatus 300) (step S1214), the database 400 is inquired (step S1215). Then, image data corresponding to the information on the guide point received from the terminal 111 (the position of the guide point, the date and time when the guide point is reached, the traffic jam prediction of the guide point, the information on the guide lane, etc.) is acquired (step S1216). 111 (step S1217).

  The terminal 111 acquires the image data transmitted from the server (image transmission apparatus 101) (step S1208), and displays this image data (step S1209). The image data to be displayed is image data corresponding to the guide point requested from the server. At this time, an image corresponding to the information on the guide point included in the request to the server, for example, an image corresponding to the position of the guide point and the date and time when the guide point is reached can be displayed. In addition, the terminal 111 can acquire information on traffic jam predictions, guidance lanes, weather information, and the like based on a route search on the server (image transmission apparatus 101) side when an image is requested. By transmitting to the server (image transmission apparatus 101) every time it arrives, the terminal 111 acquires an image suitable for the actual situation when it actually arrives at the desired position from the server (image transmission apparatus 101). It can be displayed.

  In the first and second embodiments described above, the terminal 111 (navigation device 300) side performs a route search to the destination, but is not limited thereto. The terminal 111 transmits the current position and the destination to the server (image transmission apparatus 101), and the server side performs a route search to the destination on the map data based on the current position and the destination transmitted by the terminal 111 (vehicle). It is good also as a structure which performs a process.

  In the first and second embodiments described above, the terminal 111 uses the information on the guide point as a guide point information to the server (image transmission apparatus 101), the date and time when the guide point is reached, the traffic jam prediction of the guide point, and the guide Although it was set as the structure which transmits lane information etc. collectively, it is not restricted to this. The terminal 111 transmits the position of the guidance point to the server (image transmission apparatus 101), and acquires the date and time when the server side reaches the guidance point, traffic jam prediction at the guidance point, information on the guidance lane, weather at the guidance point, and the like. Also good.

  According to the second embodiment described above, as in the first embodiment, the terminal can acquire an image at a desired position from the image transmission apparatus, and the terminal can be designated later by specifying the position and date and time when requested. It becomes possible to acquire an image at a time when the position to pass is reached.

  Further, in the second embodiment, since the server side performs image analysis processing, the processing load on the terminal side can be reduced. Also in the second embodiment, the terminal can acquire an image close to the situation when the actually requested acquisition position is reached before reaching the requested position.

  The functions of the image transmission apparatus 101 according to the first and second embodiments can be configured such that a predetermined computer apparatus collects images from the terminal 111 and distributes the images to the terminal 111. For example, the image transmission apparatus 101 is not limited to a specific server, and may be configured using the terminal 111 (navigation apparatus 300) described above.

  In the embodiment, the navigation device is used as the terminal. However, a terminal such as another smartphone can be used.

  As described above, according to the present invention, the image transmission device collects images obtained by photographing the road, and transmits the image when the requested point is reached before arrival. Thereby, it becomes possible to easily determine the road situation when the predetermined position is reached by looking at the image at the predetermined position before reaching the predetermined position. Since the delivered image is the image that best meets the request among the actual images taken in the past, it is possible to know in advance the road conditions when reaching a predetermined position, and to change the driving route in advance. It is also possible to take precautions such as

  Moreover, if it is the structure which carries out a route search, the image of several guidance points, such as every intersection on a planned route, can be acquired before reaching a guidance point, and the situation for every guidance point of a planned route is shown with an image. Easy to judge. This makes it possible to appropriately perform route re-search and the like.

  The image transmission method described in the present embodiment can be realized by executing a program prepared in advance on a computer such as a personal computer or a workstation. This program is recorded on a computer-readable recording medium such as a hard disk, a flexible disk, a CD-ROM, an MO, and a DVD, and is executed by being read from the recording medium by the computer. The program may be a transmission medium that can be distributed via a network such as the Internet.

DESCRIPTION OF SYMBOLS 100 Image transmission system 101 Image transmission apparatus 102 Acquisition part 103 Recording part 104 Transmission part 111 Terminal 112 Camera 113 Communication part 114 Display part 121 Network 300 Navigation apparatus 400 Database

Claims (1)

A recording unit in which an image is recorded in association with position information obtained by capturing the image;
When an acquisition request for an image shot at a predetermined point is acquired from a terminal, the position of the point at the time when the terminal reaches the predetermined point is associated with the position information corresponding to the predetermined point Transmitting means for transmitting an image suitable for the situation to the terminal;
An image transmission system comprising:

Images