JP2019197463A - Vehicle information analyzing device, driving support device, driving support system, vehicle information analyzing method, driving support method, and program - Google Patents

Abstract

To make it possible to call an attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.SOLUTION: A driving support method comprises: receiving vehicle state information including information relating to movement of a predetermined vehicle and vehicle position information indicating a position of a vehicle; specifying whether or not a problem occurs at a predetermined travel point on the basis of the vehicle state information and the vehicle position information, and specifying a driving state that is a problem at a travel point where the problem occurs; and outputting analysis results including information on whether or not there is a problem at the travel point, and if there is the problem at the travel point, driving state information for indicating the driving state in question at the travel point.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a vehicle information analysis device, a driving support device, a driving support system, a vehicle information analysis method, a driving support method, and a program that support driving of a vehicle.

  Attention has been focused on technologies for supporting driving of automobiles for the purpose of safe driving.

  For example, in the method described in Patent Document 1, the driving skill of the driver is improved by evaluating the driving skill of the driver of the target vehicle based on the driving information of the reference vehicle and the driving information of the target vehicle.

  However, since this method feeds back the evaluation result to the driver of the host vehicle, driving of other vehicles cannot be supported.

  This problem will be described with reference to FIG. FIG. 16 is an example of a vehicle state at an intersection where traffic congestion due to a queue for entering a parking lot is likely to occur. In this example, the vehicles E001 to E004 are waiting in a temporarily stopped state in order to enter the parking lot. The vehicle E002 has a risk of a rear-end collision because the front inter-vehicle distance is narrow and the driver is looking aside. The vehicle E003 is too far apart. The vehicle E004 has a rear part of the vehicle at the intersection, which prevents the vehicle E010 from proceeding. As described above, in the example of FIG. 16, there is a problem in the vehicle states of the vehicles E002 to E004 due to the unique road environment of parking lot waiting after passing the intersection.

  On the other hand, Patent Literature 2 and Patent Literature 3 propose a method of identifying a point that requires attention based on the state of the vehicle and calling attention to another vehicle.

  In the method described in Patent Document 2, the driving information presentation system of the own vehicle acquires the short-term driving skill level of the driver of another vehicle at a point within a predetermined distance from the current position, and the average of the short-term driving skill level is A point that falls below the threshold is determined as a point of caution. Then, the driver is alerted when the distance from the host vehicle to the caution point becomes less than the predetermined distance.

  Further, in the method described in Patent Document 3, when the center statistically processes evaluation results collected from a plurality of vehicles at each temporary stop point, and estimates that the intersection has a poor view, the attention level information is distributed. To do.

Japanese Patent No. 4650028 International Publication No. 2016/120994 JP 2007-109001 A

  In the methods described in Patent Literature 2 and Patent Literature 3, it is possible to alert a driver of another vehicle in order to identify a point that requires alerting. However, it is not possible to specify what kind of driving state (state relating to driving of the vehicle) should be specifically noted at that point.

  For example, in the case of the example of FIG. 16, a problem has occurred in the vehicles E002 to E004 that are temporarily stopped in the waiting queue to the parking lot, but the vehicle E011 that is traveling straight on a lane different from the waiting queue. There are no problems. Therefore, it is convenient to be able to notify the driver of a vehicle that is scheduled to pass this point that attention is required when the driving state is temporarily stopped.

  An object of the present invention is to provide a vehicle information analysis device, a driving support device, and a driving support that make it possible to identify a driving point that requires attention and a driving state that is a problem at the driving point and perform a warning. A system, a vehicle information analysis method, a driving support method, and a program are provided.

  In order to solve the above-described problem, a vehicle information analysis apparatus according to the present invention includes a vehicle information reception unit that receives vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle; Based on the vehicle state information and the vehicle position information, an analysis unit that identifies whether or not a problem has occurred at a predetermined travel point and a driving state having a problem at the travel point at which the problem has occurred Information on whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point; And an analysis result output unit for outputting an analysis result including.

  The driving support apparatus of the present invention includes a vehicle information collection unit that collects vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from a sensor, the vehicle state information, and the vehicle state information. A vehicle information transmission unit that transmits vehicle position information to a vehicle information analysis device, and a problem at the travel point regarding a travel point included in a predetermined range from the position indicated by the vehicle position information from the vehicle information analysis device. Based on at least a part of the analysis result, and an analysis result receiving unit that receives an analysis result including information on whether or not a problem has occurred and driving state information indicating a driving state in question at the travel point And an output unit for outputting the output information generated in this manner.

  The vehicle information analysis method of the present invention receives vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle, and based on the vehicle state information and the vehicle position information. Whether or not a problem has occurred at a predetermined travel point, and a driving state having a problem at the travel point at which the problem has occurred, and whether or not a problem has occurred at the travel point When a problem occurs at the travel point, an analysis result including information and driving state information indicating the driving state at the travel point is output.

  In the driving support method of the present invention, vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle are collected from a sensor, and the vehicle state information and the vehicle position information are collected. Information transmitted to the vehicle information analysis device, and from the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information; Receiving an analysis result including driving state information indicating a driving state in question at the travel point, and outputting output information generated based on at least a part of the analysis result.

  The vehicle information analysis program according to the present invention includes a vehicle information reception function for receiving, in a computer, vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle, and the vehicle state information. And an analysis function for identifying whether or not a problem has occurred at a predetermined travel point based on the vehicle position information and a driving state having a problem at the travel point at which the problem has occurred, and the travel An analysis result including information on whether or not a problem has occurred at a point, and, when a problem has occurred at the traveling point, driving state information indicating the driving state that is problematic at the traveling point And an analysis result output function for outputting.

  The driving support program of the present invention includes a vehicle information collection function for collecting vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from a sensor, and the vehicle state. Vehicle information transmission function for transmitting information and the vehicle position information to the vehicle information analysis device, and the travel of the travel point included in a predetermined range from the position indicated by the vehicle position information from the vehicle information analysis device An analysis result receiving function for receiving an analysis result including information on whether or not a problem has occurred at a point and driving state information indicating a driving state having a problem at the driving point; and at least one of the analysis results An output function for outputting output information generated based on the unit is realized.

  The vehicle information analysis device, the driving support device, the driving support system, the vehicle information analysis method, the driving support method, and the program according to the present invention identify the driving point requiring attention and the driving state that is a problem at the driving point. It becomes possible to call attention.

It is a figure which shows the structural example of the vehicle information analyzer of 1st embodiment of this invention, and a driving assistance device. It is a figure which shows the operation example of the vehicle information analyzer of 1st embodiment of this invention. It is a figure which shows the operation example of the driving assistance device of 1st embodiment of this invention. It is a figure which shows the example of the evaluation result with respect to driving operation of 2nd embodiment of this invention. It is a figure which shows the example of the evaluation result with respect to driving operation of 2nd embodiment of this invention. It is a figure which shows the example of the vehicle state information of 2nd embodiment of this invention. It is a figure which shows the example of the vehicle state information of 2nd embodiment of this invention. It is a figure which shows the example of the method of pinpointing whether the problem has generate | occur | produced in the travel point in the vehicle information analyzer of 2nd embodiment of this invention. It is a figure which shows the example of the method of pinpointing whether the problem has generate | occur | produced in the travel point in the vehicle information analyzer of 2nd embodiment of this invention. It is a figure which shows the example of the analysis result which the vehicle information analysis apparatus of 2nd embodiment of this invention transmits. It is a figure which shows the operation example of the driving assistance apparatus of 2nd embodiment of this invention. It is a figure which shows the operation example of the vehicle information analyzer of 2nd embodiment of this invention. It is a figure which shows the operation example of the driving assistance device of 3rd embodiment of this invention. It is a figure which shows the example of the driving | running state which can be identified by the combination of the operation | movement performed with the vehicle information analyzer 10 and the driving assistance device 20 of 4th embodiment of this invention, and the combination. It is a figure which shows the hardware structural example of each embodiment of this invention. It is a figure which shows the example of the traveling point in which the problem has generate | occur | produced.

[First embodiment]
A first embodiment of the present invention will be described.

  FIG. 1 shows a configuration example of the vehicle information analysis device 10 and the driving support device 20 of the present embodiment.

  The vehicle information analysis device 10 of this embodiment includes a vehicle information reception unit 11, an analysis unit 12, and an analysis result output unit 13.

  The vehicle information receiving unit 11 receives vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle. Based on the vehicle state information and the vehicle position information, the analysis unit 12 identifies whether or not a problem has occurred at a predetermined travel point and the driving state that has a problem at the travel point where the problem has occurred. . The analysis result output unit 13 outputs the analysis result. The analysis result includes information on whether or not a problem has occurred at the traveling point, and, when a problem has occurred at the traveling point, driving state information indicating a driving state in question at the traveling point. .

  In addition, the driving support device 20 of the present embodiment includes a vehicle information collection unit 21, a vehicle information transmission unit 22, an analysis result reception unit 23, and an output unit 24.

  The vehicle information collection unit 21 collects vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from the sensor. The vehicle information transmission unit 22 transmits vehicle state information and vehicle position information to the vehicle information analysis device 10. The analysis result receiving unit 23 receives from the vehicle information analysis device 10 information regarding whether or not a problem has occurred at the travel point for the travel point included in the predetermined range from the position indicated by the vehicle position information, and the travel point. An analysis result including operation state information indicating the operation state in question is received. The output unit 24 outputs output information generated based on at least a part of the analysis result.

  By configuring the vehicle information analysis device 10 and the driving support device 20 in this way, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  Next, FIG. 2 shows an example of the operation of the vehicle information analysis apparatus 10 of the present embodiment.

  The vehicle information receiving unit 11 receives vehicle state information and vehicle position information of a predetermined vehicle (step S101). Based on the vehicle state information and the vehicle position information, the analysis unit 12 identifies whether or not a problem has occurred at a predetermined travel point and the driving state that has a problem at the travel point where the problem has occurred. (Step S102). The analysis result output unit 13 outputs the analysis result (step S103).

  FIG. 3 shows an example of the operation of the driving support device 20 of the present embodiment.

  The vehicle information collection unit 21 collects vehicle state information and vehicle position information from the sensor (step S201). The vehicle information transmission part 22 transmits vehicle state information and vehicle position information to the vehicle information analysis apparatus 10 (step S202). The analysis result receiving unit 23 receives from the vehicle information analysis device 10 an analysis result for a travel point included in a predetermined range from the position indicated by the vehicle position information (step S203). And the output part 24 outputs the output information produced | generated based on at least one part of the analysis result (step S204).

  By operating in this way, the vehicle information analysis apparatus 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  As described above, in the first embodiment of the present invention, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

[Second Embodiment]
Next, a second embodiment of the present invention will be described. In the present embodiment, the vehicle information analysis device 10 and the driving support device 20 will be described more specifically.

  First, a configuration example of the driving support system according to the present embodiment will be described with reference to FIG. The driving support system according to the present embodiment includes a vehicle information analysis device 10 and a driving support device 20.

  The driving support device 20 is a device mounted on each vehicle. One or more driving assistance devices 20 can exist in the driving assistance system, and there may be no one depending on the time zone.

  The vehicle information analysis device 10 is a device that analyzes information obtained from the driving support device 20 mounted on each vehicle and provides an analysis result to each vehicle. One or more vehicle information analysis devices 10 can exist in the driving support system.

  The vehicle information analysis device 10 and the driving support device 20 may communicate directly or via a network accessible from both the vehicle information analysis device 10 and the driving support device 20.

  For example, when the vehicle information analysis device 10 is connected to a network that can be accessed from any of the drive support devices 20 in the drive support system, the vehicle information analysis device 10 may be a single unit, Multiple units may be used for dispersion.

  Further, for example, the vehicle information analysis device 10 is installed near a driving point to be monitored (for example, a traffic signal), and directly communicates with a driving support device 20 mounted on a vehicle that runs near the driving point (road Inter-vehicle communication, etc.) may be performed. In this case, the vehicle information analysis apparatus 10 can be installed for each traveling point to be monitored. As described above, when the travel points to be monitored by the vehicle information analysis device 10 are limited, it is possible to reduce the computing ability and the storage capacity required for the analysis.

  Next, a configuration example of the driving support device 20 of the present embodiment will be described using FIG. The driving support device 20 of this embodiment includes a vehicle information collection unit 21, a vehicle information transmission unit 22, an analysis result reception unit 23, and an output unit 24.

  The vehicle information collecting unit 21 collects vehicle state information including information related to movement of the host vehicle on which the driving support device 20 is mounted and vehicle position information indicating the position of the host vehicle from sensors mounted on the host vehicle. To do.

  The sensor acquires information representing the state and operation (behavior) of the host vehicle and information (measurement data) representing a driving operation by the driver of the host vehicle. The sensor may include, for example, a speed sensor that measures a speed at which the host vehicle moves, an acceleration sensor that measures an acceleration at which the host vehicle moves, a sensor that measures an inter-vehicle distance between the host vehicle and a vehicle ahead thereof. . The sensor may include, for example, a steering sensor that measures a steering operation by the driver, a camera that monitors the driver's eye movement, a camera that captures the front or rear of the host vehicle, and the like.

  The sensor also has a traveling position detection function for detecting the current traveling position of the host vehicle. The detection method of the traveling position is GNSS (Global Navigation Satellite System) or the like, but is not limited thereto.

  Moreover, the vehicle information collection part 21 of this embodiment estimates the driving scene of the own vehicle based on the measurement data acquired from the sensor. The driving scene is a scene in which the vehicle is being driven, such as temporary stop, straight traveling, curve traveling, intersection approach, signal suspension, and intersection right turn. And the vehicle information collection part 21 produces | generates the vehicle state information containing the information of the driving scene of the own vehicle.

  Moreover, the vehicle information collection part 21 of this embodiment evaluates the driving operation of the driver of the own vehicle based on the evaluation standard based on the measurement data acquired from the sensor. Assume that the evaluation criteria are stored in a storage device such as a memory provided in the driving support apparatus 20. When the vehicle information collection unit 21 evaluates the driving operation, for example, the technique disclosed in Patent Document 3 can be used. And the vehicle information collection part 21 produces | generates the vehicle state information containing the evaluation result with respect to the driving operation of the driver | operator of the own vehicle.

  In FIG. 4, the example of the estimation result of the driving scene in the vehicle information collection part 21 of this embodiment and the evaluation result of driving operation is shown. In this example, each value indicating “evaluation result”, “evaluation value”, “skills scoring”, and “evaluation threshold value” is associated with one or more driving operations set for each driving scene.

  In the example of FIG. 4, the vehicle information collection unit 21 estimates that the driving scene of the host vehicle is “intersection approach”. For example, the vehicle information collecting unit 21 can estimate that the driving scene is “intersection approach” by performing image analysis on a captured image obtained by a camera that captures the front of the host vehicle. Alternatively, the vehicle information collection unit 21 confirms that the driving scene is “intersection approach” by comparing the vehicle position information regarding the host vehicle with map information stored in a memory or the like provided in the driving support device 20. It is also possible to estimate. Similarly, the vehicle information collection unit 21 can also estimate that the driving scene is “straight running”, “curve running”, or the like based on the measurement data acquired from the sensor.

  The “skills scoring” in FIG. 4 is a value obtained by scoring the value indicated by the measurement data by the vehicle information collection unit 21 based on a procedure (for example, using a predetermined calculation formula) determined by the evaluation criteria. . The “skills scoring” is, for example, a value that is scored so that the closer the value indicated by the measurement data is to the ideal value in driving, the higher the score.

  The “evaluation threshold” in FIG. 4 is a threshold used when determining whether or not the value indicated by “skill scoring” satisfies the expected level of the driving skill of the driver for each driving operation. It has been established. The vehicle information collection unit 21 calculates the difference between the “skills scoring” and the “evaluation threshold” as the “evaluation value” shown in FIG. In the example of FIG. 4, for example, regarding “vehicle speed”, “skill scoring” is “90” and “evaluation threshold” is “70”, so that the vehicle information collection unit 21 performs “90” to “70”. Is calculated as “evaluation value” related to “vehicle speed”.

  The vehicle information collection unit 21 determines that the driving skill of the driver satisfies an expected level for a driving operation with an “evaluation value” of “0” or more, and sets the “evaluation result” of the driving operation to “OK”. And The vehicle information collection unit 21 determines that the driving skill of the driver does not satisfy the expected level for the driving operation whose “evaluation value” is less than “0”, and sets the “evaluation result” of the driving operation as “BAD”. "

  In the example of FIG. 4, the “evaluation result” is “OK” for all driving operations set in the driving scene “intersection approach”. This evaluation result indicates that no particular problem has occurred with respect to the movement of the host vehicle that has entered the intersection.

  FIG. 5 shows another example of the driving scene estimation result and the driving operation evaluation result in the vehicle information collection unit 21 of the present embodiment. In this example, since the vehicle information collection unit 21 calculates “−20” as the “evaluation value” regarding “inter-vehicle distance”, the “evaluation result” regarding “inter-vehicle distance” is set to “BAD”. This evaluation result indicates that a problem has occurred regarding the movement of the host vehicle that has entered the intersection.

  The vehicle information transmission unit 22 transmits the vehicle state information and the vehicle position information collected by the vehicle information collection unit 21 to the vehicle information analysis device 10.

  FIGS. 6 and 7 show examples of vehicle state information that the vehicle information transmission unit 22 transmits to the vehicle information analysis device 10 when the estimation result of the driving scene and the evaluation result of the driving operation are FIGS. 4 and 5, respectively. . The vehicle state information in FIGS. 6 and 7 is obtained by omitting “skills scoring” and “evaluation threshold” from FIGS. 4 and 5.

  The analysis result receiving unit 23 receives, from the vehicle information analysis device 10, an analysis result for a travel point included in a predetermined range from the position indicated by the vehicle position information. The analysis result includes information indicating whether or not a problem has occurred at the travel point, and driving state information indicating a driving state in question at the traveling point. The driving state is a state related to driving, for example, driving scene, driving operation, date and time, and the like.

  The output unit 24 outputs output information generated based on at least a part of the analysis result received by the analysis result receiving unit 23. For example, the output unit 24 outputs, as an audio or image, information related to the location of the travel point, whether or not a problem has occurred at the travel point, information on the driving state that is a problem at the travel point, and the like.

  Next, a configuration example of the vehicle information analysis apparatus 10 of the present embodiment will be described using FIG. The vehicle information analysis device 10 of this embodiment includes a vehicle information reception unit 11, an analysis unit 12, and an analysis result output unit 13.

  The vehicle information receiving unit 11 is a part that receives vehicle state information of a vehicle on which the driving support device 20 is mounted from each of the driving support devices 20 in the driving support system. In the present embodiment, the vehicle state information includes the evaluation result for the driving operation of the driver of the vehicle on which the driving support device 20 is mounted, and the estimation result of the driving scene.

  The vehicle information receiving unit 11 associates the received vehicle state information and vehicle position information with each other and stores them in a storage device such as a memory in the vehicle information analysis apparatus 10. The amount of data to be stored is an arbitrary amount such as a predetermined time (for example, one day, one week, etc.) or a predetermined number of vehicles.

  Based on the vehicle state information and the vehicle position information received by the vehicle information receiving unit 11, the analysis unit 12 specifies whether or not a problem has occurred at a predetermined travel point. Moreover, the analysis part 12 specifies the driving | running state which is a problem in the driving | running point where the problem has generate | occur | produced.

  For example, the analysis unit 12 specifies whether or not there is a problem at a predetermined travel point and the driving state that is a problem at the travel point as follows.

  First, the analysis unit 12 obtains vehicle state information corresponding to the vehicle position information included in the predetermined travel point, that is, the predetermined travel point from the vehicle state information stored in the storage device in the vehicle information analysis device 10. Read vehicle state information relating to a running vehicle. And about each driving | running | working point, based on the evaluation result of the driving operation contained in vehicle state information, it is determined whether the problem has generate | occur | produced at the driving | running | working point.

  For example, the analysis unit 12 uses, for each driving operation of the vehicle state information, a statistical value (for example, an average value or an intermediate value) of the evaluation value of the driving operation included in the vehicle state information estimated as the same driving scene. calculate. For example, when there are two pieces of vehicle state information estimated to be the same driving scene, the average value of the evaluation values for the two vehicles is calculated. If the calculated statistical value does not satisfy the standard (for example, a negative value), the driving operation is determined as BAD evaluation. A driving scene including the driving operation is also set as BAD evaluation. Further, when any driving operation is BAD evaluation, it is specified that a problem occurs at the travel point.

  8 and 9 show examples of analysis results in the analysis unit 12. In this example, the analysis unit 12 analyzes the vehicle state information for the travel point A (FIG. 8) and the travel point B (FIG. 9), and the problem occurs at any travel point (BAD evaluation). Judgment. In addition, the analysis unit 12 sets “driving operation = running locus” of “driving scene = curve traveling” and “driving operation of“ driving scene = intersection approach ”as driving states in which a problem occurs at the traveling point A. = Inter-vehicle distance and driver safety check ”. Further, the analysis unit 12 specifies “driving operation = inter-vehicle distance” of “driving scene = straight traveling” as the driving state in which the problem occurs at the traveling point B.

  And the analysis result output part 13 transmits the analysis result about the driving | running | working point included in the predetermined range from the position which vehicle position information shows to the driving assistance apparatus 20. FIG. Then, the analysis result receiving unit 23 of the driving support device 20 receives this analysis result.

  For example, when the driving support device 20 is near the travel point A in the example of FIG. 8, the analysis result output unit 13 transmits the analysis result for the travel point A to the driving support device 20.

  The analysis result output unit 13 may transmit all the evaluation results and statistical values for each driving operation to the driving support device 20. Alternatively, when the evaluation result is OK for any driving scene, the analysis result output unit 13 may transmit that fact to the driving support device 20. In addition, when there is a BAD evaluation for any driving scene, the analysis result output unit 13 may transmit information on the driving scene, the driving operation, and the statistical value that are the BAD evaluation to the driving support device 20. Good (for example, FIG. 10).

  In addition, when the vehicle information analysis apparatus 10 can receive vehicle state information only from a vehicle that travels at a specific travel point (driving support device 20), the “predetermined travel point” is the specific travel point. For example, when the vehicle information analysis device 10 is installed at an intersection, the vehicle information analysis device 10 performs the above-described analysis (identification of the occurrence of a problem and the driving state in question) for the intersection.

  When the vehicle information analysis device 10 can receive vehicle state information from a vehicle (driving support device 20) traveling at a plurality of travel points, the vehicle information analysis device 10 performs the above-described analysis for a plurality of travel points.

In the above-described example, the configuration in which the vehicle information analysis device 10 transmits the analysis result to the driving support device 20 has been described. However, the transmission destination of the analysis result may not be the driving support device 20. For example, the vehicle information analysis apparatus 10 transmits an analysis result about a traveling point within a predetermined range from the electronic bulletin board to the electronic bulletin board installed along the road, and the electronic bulletin board displays the alert information. Also good.

  Moreover, the vehicle information analysis apparatus 10 may output the analysis result as a sound or an image. For example, when the vehicle information analysis device 10 is installed in the vicinity of the traveling point to be monitored, the alert information generated from the analysis result may be displayed on an electric bulletin board provided in the vehicle information analysis device 10.

  By configuring the vehicle information analysis device 10 and the driving support device 20 in this way, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  Next, an operation example of the driving support system according to the present embodiment will be described with reference to FIGS. 11 and 12. FIG. 11 shows an operation example of the driving support apparatus 20 of the present embodiment, and FIG. 12 shows an operation example of the vehicle information analysis apparatus 10 of the present embodiment.

  First, each of the driving assistance devices 20 collects measurement data and vehicle position information at a predetermined timing (step S301 in FIG. 11). And the driving assistance apparatus 20 estimates the driving scene of the own vehicle based on measurement data (step S302). The driving support device 20 evaluates the driving operation set in the estimated driving scene, and generates vehicle state information (step S303). Then, the driving support device 20 transmits the vehicle state information and the vehicle position information to the vehicle information analysis device 10 (step S304).

  When receiving the vehicle state information and the vehicle position information (step S401 in FIG. 12), the vehicle information analysis apparatus 10 stores the information in a storage device in the vehicle information analysis apparatus 10. Then, the vehicle information analyzing apparatus 10 becomes a problem based on the stored vehicle state information and vehicle position information, whether or not a problem has occurred at a predetermined travel point, and the travel point where the problem has occurred. The operating state is identified (step S402). In the present embodiment, the driving state is a driving scene and a driving operation.

  In addition, the vehicle information analysis apparatus 10 may specify the date and time when the problem has occurred as the driving state in question. For example, when the problem as shown in FIG. 16 occurs only in a specific time zone on holidays, this fact may be specified. The vehicle information analysis device 10 specifies one or more of a driving scene, a driving operation, and a date and time as the driving state in question.

  Further, the driving support device 20 transmits the vehicle position information of the own vehicle to the vehicle information analysis device 10 at a predetermined timing (step S305 in FIG. 11). And the vehicle information analysis apparatus 10 will transmit the analysis result in the analysis part 12 to the driving assistance apparatus 20 of the transmission origin of vehicle position information, if vehicle position information is received (step S403 of FIG. 12) (step S404). In addition, the analysis results are information about whether or not a problem has occurred at the travel point for the travel point within a predetermined range from the position indicated by the vehicle position information, and if a problem has occurred at the travel point, And driving state information of the driving state which is a problem at the travel point.

  Further, step S305 in FIG. 11 may be a vehicle position information transmission operation in step S304, or may be a vehicle position information transmission operation at a timing different from step S304. Similarly, step S403 in FIG. 12 may be a vehicle position information reception operation in step S401, or may be a vehicle position information reception operation at a different timing from step S401.

  The driving support device 20 receives the analysis result (step S306 in FIG. 11), and when the analysis result includes BAD (YES in step S307), alerts the driver (step S308). For example, the driving support device 20 outputs the position information of the travel point, the information of the driving scene serving as the BAD, and the information of the driving operation in which the problem has occurred in a voice or an image. When information on the date and time when the problem has occurred is included in the analysis result, a warning may be given when the date and time when the vehicle is currently running corresponds to the date and time when the problem has occurred.

  By operating in this way, the vehicle information analysis apparatus 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  As described above, in the second embodiment of the present invention, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

[Third embodiment]
Next, a third embodiment of the present invention will be described. This embodiment demonstrates the case where the driving assistance apparatus 20 outputs the driving control information for improving a problem, when the analysis result that the problem has generate | occur | produced in the driving | running | working point is received.

  First, a configuration example of the driving support device 20 of the present embodiment will be described with reference to FIG. The configuration example of the driving support system and the vehicle information analysis device 10 of the present embodiment is the same as that of the second embodiment (FIG. 1).

  About the vehicle information collection part 21, the vehicle information transmission part 22, and the analysis result receiving part 23 of this embodiment, it is the same as that of 2nd embodiment.

  The output unit 24 outputs output information generated based on at least a part of the analysis result received by the analysis result receiving unit 23 from the vehicle information analysis device 10. In the present embodiment, when the analysis result indicates that a problem has occurred at the travel point, the output information includes driving control information for controlling the host vehicle so as to improve the problem at the travel point. . The output unit 24 generates driving control information based on the driving state information and the vehicle state information. The driving control information may be information for the driver to drive the host vehicle, or may be information for automatically controlling the host vehicle.

  For example, when a travel route is input to the navigation function of the host vehicle, the output unit 24 uses the travel route information to determine whether the host vehicle passes through the travel point where the problem occurs, It is possible to grasp the driving scene when passing through the travel point.

  Then, the output unit 24 operates based on the driving state information indicating the driving state in question, which is included in the analysis result, and the control content predetermined for the driving scene and driving operation. Generate control information.

  For example, it is assumed that the host vehicle is scheduled to enter the intersection of the travel point A and the analysis result receiving unit 23 receives the analysis result of FIG. At this time, since the analysis result indicates that “driving operation = inter-vehicle distance and driver safety confirmation” of “driving scene = intersection approach” is BAD evaluation, the output unit 24 outputs these driving scenes and driving operations. The operation control information is generated based on the control content associated with. For example, when the control content “takes a larger distance” is associated with the “distance between vehicles” of “intersection approach”, the driving control information that instructs the host vehicle to increase the distance between vehicles Generate. Then, the host vehicle controls the host vehicle based on the driving control information output by the output unit 24 so as to increase the inter-vehicle distance.

  By configuring the vehicle information analysis device 10 and the driving support device 20 in this way, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  In addition, the driving support device 20 of the present embodiment generates driving control information for controlling the host vehicle so as to improve the problem at the traveling point based on the analysis result received from the vehicle information analyzing device 10. , Output as output information. Therefore, the possibility of improving the problem at the travel point can be improved.

  Next, an operation example of the driving support device 20 of the present embodiment will be described with reference to FIGS. 11 and 13. FIG. 13 shows an example of the operation performed by the driving support device 20 after step S308 in FIG. 11 or instead of step S308.

  When there is BAD evaluation information in the analysis result (YES in step S307 in FIG. 11), the driving support device 20 generates driving control information based on the driving scene that is BAD evaluation and the control content corresponding to the driving operation. And output (step S309 in FIG. 13). Then, the host vehicle controls the host vehicle based on the driving control information.

  By operating in this way, the vehicle information analysis apparatus 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  As described above, in the third embodiment of the present invention, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

  In addition, the driving support device 20 of the present embodiment generates driving control information for controlling the host vehicle so as to improve the problem at the traveling point based on the analysis result received from the vehicle information analyzing device 10. , Output as output information. Therefore, the possibility of improving the problem at the travel point can be improved.

[Fourth embodiment]
Next, a fourth embodiment of the present invention will be described. In the second embodiment, the driving support device 20 estimates the driving scene of the host vehicle and evaluates the driving operation. In the present embodiment, patterns other than those in which the driving support device 20 performs estimation of driving scenes and evaluation of driving operations will be described.

  FIG. 14 shows combinations of operations performed by the vehicle information analysis device 10 and the driving support device 20 and driving states that can be specified by the combinations. The top combination is the combination of the second embodiment.

  The evaluation of the driving operation and the estimation of the driving scene may be performed by either the vehicle information analysis device 10 or the driving support device 20. However, since the vehicle information analysis device 10 determines whether there is a problem at the travel point based on the evaluation result of the driving operation, the evaluation of the driving operation is performed by either the vehicle information analysis device 10 or the driving support device 20. There is a need. The estimation of the driving scene is unnecessary when the vehicle information analysis apparatus 10 does not specify the driving scene.

  When the vehicle information analysis device 10 evaluates the driving operation or estimates the driving scene, the driving support device 20 transmits measurement data before the evaluation of the driving operation to the vehicle information analysis device 10. Further, when the vehicle information analysis device 10 evaluates the driving operation or estimates the driving scene, the result is transmitted to the vehicle information analysis device 10.

  The driving state that can be specified by the vehicle information analysis apparatus 10 includes one or more of a driving scene, a driving operation, and a date. When the estimation of the driving scene is performed by either the vehicle information analysis device 10 or the driving support device 20, the vehicle information analysis device 10 can specify any of the driving scene, the driving operation, and the date and time. However, when the estimation of the driving scene is not performed by either the vehicle information analysis device 10 or the driving support device 20, the vehicle information analysis device 10 cannot identify the driving scene that is a problem at the travel point. .

  When the vehicle information analysis device 10 evaluates the driving operation or estimates the driving scene, the vehicle information analysis device 10 evaluates the driving operation or the driving scene in the same manner as the driving support device 20 of the second embodiment. An estimation can be made.

  Other configurations and operations are the same as those in the second embodiment, and thus description thereof is omitted.

  As described above, in the fourth embodiment of the present invention, the vehicle information analysis device 10 receives vehicle state information and vehicle position information of a predetermined vehicle. Further, based on the vehicle state information and the vehicle position information, it is determined whether or not a problem has occurred at a predetermined travel point and the driving state in question at the travel point where the problem has occurred. Then, the driving support device 20 receives from the vehicle information analysis device 10 an analysis result including information on whether or not a problem has occurred at the travel point and information on the driving state in question at the travel point. As a result, the vehicle information analysis device 10 identifies whether or not a problem has occurred at the travel point and the driving state in question at the travel point where the problem has occurred, and the driving support device 20 of each vehicle The information can be received. Therefore, it becomes possible to call attention by specifying a travel point requiring attention and a driving state that is a problem at the travel point.

[Hardware configuration example]
Regarding a configuration example of hardware resources for realizing the vehicle information analysis device 10 or the driving support device 20 (hereinafter, vehicle information analysis device or the like) in each embodiment of the present invention described above using one information processing device (computer). explain. The vehicle information analysis device or the like may be realized using at least two information processing devices physically or functionally. Further, the vehicle information analysis device or the like may be realized as a dedicated device. Moreover, you may implement | achieve only some functions, such as a vehicle information analyzer, using an information processing apparatus.

  FIG. 15 is a diagram schematically illustrating a hardware configuration example of an information processing apparatus capable of realizing the vehicle information analysis apparatus and the like according to each embodiment of the present invention. The information processing device 90 includes a communication interface 91, an input / output interface 92, an arithmetic device 93, a storage device 94, a nonvolatile storage device 95, and a drive device 96.

  The communication interface 91 is a communication means for the vehicle information analysis device or the like of each embodiment to communicate with an external device by wire or / and wireless. In the case where the vehicle information analysis device or the like is realized by using at least two information processing devices, the devices may be connected to each other via the communication interface 91.

  The input / output interface 92 is a man-machine interface such as a keyboard which is an example of an input device and a display as an output device.

  The arithmetic device 93 is an arithmetic processing device such as a general-purpose CPU (Central Processing Unit) or a microprocessor. For example, the arithmetic device 93 can read various programs stored in the nonvolatile storage device 95 into the storage device 94 and execute processing according to the read programs.

  The storage device 94 is a memory device such as a RAM (Random Access Memory) that can be referred to from the arithmetic device 93, and stores programs, various data, and the like. The storage device 94 may be a volatile memory device.

  The nonvolatile storage device 95 is a nonvolatile storage device such as a ROM (Read Only Memory) or a flash memory, and can store various programs, data, and the like.

  The drive device 96 is, for example, a device that processes reading and writing of data with respect to a recording medium 97 described later.

  The recording medium 97 is an arbitrary recording medium capable of recording data, such as an optical disk, a magneto-optical disk, and a semiconductor flash memory.

  In each embodiment of the present invention, for example, a vehicle information analysis device or the like is configured by the information processing device 90 illustrated in FIG. 15, and the functions described in the above embodiments can be realized for the vehicle information analysis device or the like. It may be realized by supplying a simple program.

  In this case, the embodiment can be realized by the arithmetic device 93 executing the program supplied to the vehicle information analysis device or the like. It is also possible to configure some of the functions of the information processing apparatus 90 instead of all of the vehicle information analysis apparatus and the like.

  Furthermore, the program may be recorded in the recording medium 97 so that the program is appropriately stored in the nonvolatile storage device 95 at the shipping stage or operation stage of the vehicle information analysis apparatus or the like. In this case, as a method for supplying the program, a method of installing in a vehicle information analysis apparatus or the like using an appropriate jig in a manufacturing stage or an operation stage before shipment may be adopted. The program supply method may employ a general procedure such as a method of downloading from the outside via a communication line such as the Internet.

  Each of the above-described embodiments is a preferred embodiment of the present invention, and various modifications can be made without departing from the scope of the present invention.

  A part or all of the above-described embodiment can be described as in the following supplementary notes, but is not limited thereto.

(Appendix 1)
A vehicle information receiving unit for receiving vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle;
Based on the vehicle state information and the vehicle position information, an analysis unit that identifies whether or not a problem has occurred at a predetermined travel point and a driving state having a problem at the travel point at which the problem has occurred When,
Information indicating whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point. A vehicle information analysis apparatus comprising: an analysis result output unit that outputs an analysis result.

(Appendix 2)
The vehicle information analysis apparatus according to appendix 1, wherein the analysis result is the analysis result of the travel point included in a predetermined range from the position indicated by the vehicle position information.

(Appendix 3)
The vehicle information analysis apparatus according to appendix 1 or appendix 2, wherein the driving state information includes information on a date and time when a problem occurs at the travel point.

(Appendix 4)
4. The vehicle information analysis apparatus according to any one of appendix 1 to appendix 3, wherein the driving state information includes information on a driving operation that is a problem at the travel point.

(Appendix 5)
The vehicle information analysis apparatus according to appendix 4, wherein the vehicle state information includes an evaluation result for the driving operation of the driver of the vehicle.

(Appendix 6)
The vehicle information analysis apparatus according to any one of appendix 1 to appendix 3, wherein the vehicle state information includes an evaluation result for a driving operation of a driver of the vehicle.

(Appendix 7)
The analysis unit calculates a statistical value of an evaluation value included in the evaluation result for the driving operation for each of the driving operations based on the vehicle state information corresponding to the vehicle position information included in the travel point. The vehicle information according to appendix 5 or appendix 6, wherein when at least one of the driving operations, the statistical value does not satisfy a standard, it is specified that a problem occurs at the travel point. Analysis equipment.

(Appendix 8)
The vehicle information analysis apparatus according to any one of appendix 5 to appendix 7, wherein the analysis unit estimates a driving scene indicating a scene in which the vehicle is driven based on the vehicle state information.

(Appendix 9)
The vehicle information analysis apparatus according to appendix 8, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 10)
The vehicle information analysis apparatus according to any one of appendix 5 to appendix 7, wherein the vehicle state information further includes information of a driving scene indicating a scene in which the vehicle is being driven.

(Appendix 11)
The vehicle information analysis apparatus according to appendix 10, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 12)
The vehicle analysis device according to any one of appendix 1 to appendix 3, wherein the analysis unit evaluates a driving operation of a driver of the vehicle based on the vehicle state information.

(Appendix 13)
The vehicle information analysis apparatus according to appendix 4, wherein the analysis unit evaluates the driving operation of the driver of the vehicle based on the vehicle state information.

(Appendix 14)
The analysis unit evaluates the driving operation for each of the driving operations based on an evaluation result of evaluating the driving operation based on the vehicle state information corresponding to the vehicle position information included in the travel point. And calculating a statistic value of at least one of the driving operations and specifying that a problem has occurred at the travel point when the statistic value does not satisfy a standard. The vehicle information analysis device described in 1.

(Appendix 15)
The vehicle information analysis device according to any one of appendix 12 to appendix 14, wherein the analysis unit estimates a driving scene indicating a scene in which the vehicle is being driven based on the vehicle state information.

(Appendix 16)
The analysis unit evaluates the driving skill of the driver of the vehicle based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene when the driving operation is evaluated. The vehicle information analysis apparatus according to Supplementary Note 15, which is a feature.

(Appendix 17)
The vehicle information analysis device according to appendix 15 or appendix 16, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 18)
The vehicle information analysis apparatus according to any one of appendix 12 to appendix 14, wherein the vehicle state information includes information on a driving scene indicating a scene in which the vehicle is being driven.

(Appendix 19)
The analysis unit evaluates the driving skill of the driver of the vehicle based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene when the driving operation is evaluated. Item 19. The vehicle information analysis device according to appendix 18, which is characterized.

(Appendix 20)
The vehicle information analysis apparatus according to appendix 18 or appendix 19, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 21)
A vehicle information collection unit that collects vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from a sensor;
A vehicle information transmitter for transmitting the vehicle state information and the vehicle position information to a vehicle information analyzer;
From the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information, and a problem at the travel point. An analysis result receiving unit that receives an analysis result including driving state information indicating the driving state
An output unit that outputs output information generated based on at least a part of the analysis result.

(Appendix 22)
When the analysis result indicates that a problem has occurred at the travel point,
The output information includes driving control information for controlling the host vehicle so as to improve the problem at the travel point,
The driving support apparatus according to appendix 21, wherein the output unit generates the driving control information based on the driving state information and the vehicle state information.

(Appendix 23)
The vehicle information collection unit further evaluates the driving operation of the driver of the host vehicle based on the information acquired from the sensor,
The driving support device according to appendix 21 or appendix 22, wherein the vehicle state information includes an evaluation result for the driving operation.

(Appendix 24)
The vehicle information collection unit further estimates a driving scene indicating a scene in which the host vehicle is driven based on information acquired from the sensor,
The driving support apparatus according to appendix 23, wherein the vehicle state information includes information on the driving scene of the host vehicle.

(Appendix 25)
When evaluating the driving operation, the vehicle information collecting unit evaluates the driving skill of the driver of the own vehicle based on a predetermined evaluation criterion for one or more driving operations set for each driving scene. To
The driving support device according to Supplementary Note 24, wherein:

(Appendix 26)
The vehicle information collection unit further estimates a driving scene indicating a scene in which the host vehicle is driven based on information acquired from the sensor,
The driving support device according to appendix 21 or appendix 22, wherein the vehicle state information includes information on the driving scene of the host vehicle.

(Appendix 27)
The driving support device according to any one of Supplementary Note 21 or Supplementary Note 22,
The vehicle information analysis device,
The vehicle information analysis device is the vehicle information analysis device according to any one of Supplementary Note 1 to Supplementary Note 4 and Supplementary Note 12 to Supplementary Note 17.

(Appendix 28)
The driving support device according to attachment 23;
The vehicle information analysis device,
The vehicle information analysis device is the vehicle information analysis device according to any one of Supplementary Note 5 to Supplementary Note 9. A driving support system, wherein:

(Appendix 29)
The driving support device according to appendix 24 or appendix 25;
The vehicle information analysis device,
The vehicle information analysis device is the vehicle information analysis device according to Supplementary Note 10 or Supplementary Note 11. A driving support system, characterized in that:

(Appendix 30)
The driving support device according to attachment 26;
The vehicle information analysis device,
The vehicle information analysis device is the vehicle information analysis device according to any one of Supplementary Note 18 to Supplementary Note 20. A driving support system, wherein:

(Appendix 31)
Receiving vehicle state information including information on movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle;
Based on the vehicle state information and the vehicle position information, whether or not a problem occurs at a predetermined travel point, and the driving state that is a problem at the travel point where the problem occurs,
Information indicating whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point. A vehicle information analysis method characterized by outputting an analysis result.

(Appendix 32)
The vehicle information analysis method according to appendix 31, wherein the analysis result is the analysis result for the travel point included in a predetermined range from the position indicated by the vehicle position information.

(Appendix 33)
The vehicle information analysis method according to Supplementary Note 31 or Supplementary Note 32, wherein the driving state information includes information on a date and time when a problem occurs at the travel point.

(Appendix 34)
34. The vehicle information analysis method according to any one of Supplementary Note 31 to Supplementary Note 33, wherein the driving state information includes information on a driving operation in question at the travel point.

(Appendix 35)
The vehicle information analysis method according to appendix 34, wherein the vehicle state information includes an evaluation result for the driving operation of a driver of the vehicle.

(Appendix 36)
34. The vehicle information analysis method according to any one of appendix 31 to appendix 33, wherein the vehicle state information includes an evaluation result for a driving operation of a driver of the vehicle.

(Appendix 37)
Based on the vehicle state information corresponding to the vehicle position information included in the travel point, a statistical value of an evaluation value included in the evaluation result for the driving operation is calculated for each driving operation, and the driving operation is calculated. 37. The vehicle information analysis method according to appendix 35 or appendix 36, wherein when at least one of the statistical values does not satisfy a standard, it is specified that a problem has occurred at the travel point.

(Appendix 38)
The vehicle information analysis method according to any one of appendix 35 to appendix 37, wherein a driving scene indicating a scene in which the vehicle is being driven is estimated based on the vehicle state information.

(Appendix 39)
The vehicle information analysis method according to appendix 38, wherein the driving state information includes information on the driving scene in question at the travel point.

(Appendix 40)
The vehicle information analysis method according to any one of appendix 35 to appendix 37, wherein the vehicle state information further includes information on a driving scene indicating a scene in which the vehicle is being driven.

(Appendix 41)
41. The vehicle information analysis method according to appendix 40, wherein the driving state information includes information on the driving scene in question at the travel point.

(Appendix 42)
The vehicle information analysis method according to any one of Supplementary Note 31 to Supplementary Note 33, wherein a driving operation of a driver of the vehicle is evaluated based on the vehicle state information.

(Appendix 43)
The vehicle information analysis method according to appendix 34, wherein the driving operation of a driver of the vehicle is evaluated based on the vehicle state information.

(Appendix 44)
Based on an evaluation result obtained by evaluating the driving operation based on the vehicle state information corresponding to the vehicle position information included in the travel point, a statistical value of an evaluation value for the driving operation is calculated for each of the driving operations. The vehicle information according to appendix 42 or appendix 43, wherein when at least one of the driving operations, the statistical value does not satisfy a criterion, it is specified that a problem occurs at the travel point. Analysis method.

(Appendix 45)
45. The vehicle information analysis method according to any one of appendix 42 to appendix 44, wherein a driving scene indicating a scene in which the vehicle is being driven is estimated based on the vehicle state information.

(Appendix 46)
Appendix 45. When evaluating the driving operation, the driving skill of the driver of the vehicle is evaluated based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene. Vehicle information analysis method described in 1.

(Appendix 47)
47. The vehicle information analysis method according to appendix 45 or appendix 46, wherein the driving state information includes information on the driving scene in question at the travel point.

(Appendix 48)
45. The vehicle information analysis method according to any one of appendix 42 to appendix 44, wherein the vehicle state information includes information on a driving scene indicating a scene in which the vehicle is being driven.

(Appendix 49)
Supplementary note 48. When the driving operation is evaluated, the driving skill of the driver of the vehicle is evaluated based on a predetermined evaluation criterion for one or more driving operations set for each driving scene. Vehicle information analysis method described in 1.

(Appendix 50)
50. The vehicle information analysis method according to appendix 48 or appendix 49, wherein the driving state information includes information on the driving scene in question at the travel point.

(Appendix 51)
Collecting vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from the sensor;
Transmitting the vehicle state information and the vehicle position information to a vehicle information analyzer;
From the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information, and a problem at the travel point. Receiving analysis results including driving status information indicating the driving status
Output information generated based on at least a part of the analysis result is output.

(Appendix 52)
When the analysis result indicates that a problem has occurred at the travel point,
Based on the driving state information and the vehicle state information, generate driving control information for controlling the host vehicle so as to improve the problem at the traveling point,
52. The driving support method according to appendix 51, wherein the output information includes the driving control information.

(Appendix 53)
Based on the information obtained from the sensor, the driving operation of the driver of the host vehicle is evaluated,
53. The driving support method according to appendix 51 or appendix 52, wherein the vehicle state information includes an evaluation result for the driving operation.

(Appendix 54)
Based on the information acquired from the sensor, a driving scene indicating a scene in which the host vehicle is driven is estimated,
54. The driving support method according to appendix 53, wherein the vehicle state information includes information on the driving scene of the host vehicle.

(Appendix 55)
When evaluating the driving operation, the driving skill of the driver of the host vehicle is evaluated based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene.
55. The driving support method according to appendix 54, wherein

(Appendix 56)
Based on the information acquired from the sensor, a driving scene indicating a scene in which the host vehicle is driven is estimated,
53. The driving support method according to appendix 51 or appendix 52, wherein the vehicle state information includes information on the driving scene of the host vehicle.

(Appendix 57)
On the computer,
Vehicle information receiving function for receiving vehicle state information including information relating to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle;
Based on the vehicle state information and the vehicle position information, an analysis function for identifying whether or not a problem has occurred at a predetermined traveling point and a driving state having a problem at the traveling point where the problem has occurred When,
Information indicating whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point. A vehicle information analysis program characterized by realizing an analysis result output function for outputting an analysis result.

(Appendix 58)
The analysis result is the analysis result for the travel point included in a predetermined range from the position indicated by the vehicle position information.

(Appendix 59)
59. The vehicle information analysis program according to appendix 57 or appendix 58, wherein the driving state information includes information on a date and time when a problem occurs at the travel point.

(Appendix 60)
60. The vehicle information analysis program according to any one of supplementary notes 57 to 59, wherein the driving state information includes information on a driving operation that is a problem at the travel point.

(Appendix 61)
The vehicle information analysis program according to appendix 60, wherein the vehicle state information includes an evaluation result for the driving operation of a driver of the vehicle.

(Appendix 62)
The vehicle information analysis program according to any one of supplementary notes 57 to 59, wherein the vehicle state information includes an evaluation result for a driving operation of a driver of the vehicle.

(Appendix 63)
The analysis function calculates a statistical value of an evaluation value included in the evaluation result for the driving operation for each of the driving operations based on the vehicle state information corresponding to the vehicle position information included in the travel point. The vehicle information according to appendix 61 or appendix 62, wherein when at least one of the driving operations, the statistical value does not satisfy a criterion, it is specified that a problem occurs at the travel point. Analysis program.

(Appendix 64)
The vehicle information analysis program according to any one of appendix 61 to appendix 63, wherein the analysis function estimates a driving scene indicating a scene in which the vehicle is being driven based on the vehicle state information.

(Appendix 65)
The vehicle information analysis program according to appendix 64, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 66)
64. The vehicle information analysis program according to any one of supplementary notes 61 to 63, wherein the vehicle state information further includes driving scene information indicating a scene in which the vehicle is being driven.

(Appendix 67)
The vehicle information analysis program according to appendix 66, wherein the driving state information includes information on the driving scene in question at the travel point.

(Appendix 68)
The vehicle information analysis program according to any one of supplementary notes 57 to 59, wherein the analysis function evaluates a driving operation of a driver of the vehicle based on the vehicle state information.

(Appendix 69)
The vehicle information analysis program according to appendix 60, wherein the analysis function evaluates the driving operation of the driver of the vehicle based on the vehicle state information.

(Appendix 70)
The analysis function is an evaluation value for the driving operation for each of the driving operations based on an evaluation result of evaluating the driving operation based on the vehicle state information corresponding to the vehicle position information included in the travel point. Appendix 68 or Appendix 69, wherein a problem occurs at the travel point when the statistical value does not satisfy a standard for at least one of the driving operations. Vehicle information analysis program described in 1.

(Appendix 71)
The vehicle information analysis program according to any one of appendix 68 to appendix 70, wherein the analysis function estimates a driving scene indicating a scene in which the vehicle is being driven based on the vehicle state information.

(Appendix 72)
The analysis function evaluates the driving skill of the driver of the vehicle based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene when the driving operation is evaluated. 79. The vehicle information analysis program according to appendix 71, which is characterized.

(Appendix 73)
The vehicle information analysis program according to appendix 71 or appendix 72, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 74)
The vehicle information analysis program according to any one of appendix 68 to appendix 70, wherein the vehicle state information includes driving scene information indicating a scene in which the vehicle is being driven.

(Appendix 75)
The analysis function evaluates the driving skill of the driver of the vehicle based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene when the driving operation is evaluated. 79. The vehicle information analysis program according to appendix 74, which is characterized.

(Appendix 76)
The vehicle information analysis program according to appendix 74 or appendix 75, wherein the driving state information includes information on the driving scene that is a problem at the travel point.

(Appendix 77)
On the computer,
Vehicle information collection function for collecting vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from a sensor;
A vehicle information transmission function for transmitting the vehicle state information and the vehicle position information to a vehicle information analyzer;
From the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information, and a problem at the travel point. An analysis result receiving function for receiving an analysis result including the driving state information indicating the driving state,
An output function for outputting output information generated based on at least a part of the analysis result is realized.

(Appendix 78)
When the analysis result indicates that a problem has occurred at the travel point,
The output information includes driving control information for controlling the host vehicle so as to improve the problem at the travel point,
The driving support program according to appendix 77, wherein the output function generates the driving control information based on the driving state information and the vehicle state information.

(Appendix 79)
The vehicle information collection function further evaluates the driving operation of the driver of the host vehicle based on the information acquired from the sensor,
The driving support program according to appendix 77 or appendix 78, wherein the vehicle state information includes an evaluation result for the driving operation.

(Appendix 80)
The vehicle information collection function further estimates a driving scene indicating a scene in which the host vehicle is driven based on information acquired from the sensor,
The driving support program according to appendix 79, wherein the vehicle state information includes information on the driving scene of the host vehicle.

(Appendix 81)
When evaluating the driving operation, the vehicle information collecting function evaluates the driving skill of the driver of the own vehicle based on a predetermined evaluation criterion for one or more of the driving operations set for each driving scene. To
80. The driving support program according to appendix 80, wherein:

(Appendix 82)
The vehicle information collection function further estimates a driving scene indicating a scene in which the host vehicle is driven based on information acquired from the sensor,
The driving support program according to appendix 77 or appendix 78, wherein the vehicle state information includes information on the driving scene of the host vehicle.

DESCRIPTION OF SYMBOLS 10 Vehicle information analyzer 11 Vehicle information receiver 12 Analyzer 13 Analysis result output unit 20 Driving support device 21 Vehicle information collection unit 22 Vehicle information transmitter 23 Analysis result receiver 24 Output unit 90 Information processing device 91 Communication interface 92 Input / output Interface 93 Computing device 94 Storage device 95 Non-volatile storage device 96 Drive device 97 Recording medium

Claims (10)

A vehicle information receiving unit for receiving vehicle state information including information related to movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle;
Based on the vehicle state information and the vehicle position information, an analysis unit that identifies whether or not a problem has occurred at a predetermined travel point and a driving state having a problem at the travel point at which the problem has occurred When,
Information indicating whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point. A vehicle information analysis apparatus comprising: an analysis result output unit that outputs an analysis result. The vehicle information analysis apparatus according to claim 1, wherein the driving state information includes information on a driving operation that is a problem at the travel point. The vehicle information analysis apparatus according to claim 2, wherein the vehicle state information includes an evaluation result for the driving operation of the driver of the vehicle. The analysis unit calculates a statistical value of an evaluation value included in the evaluation result for the driving operation for each of the driving operations based on the vehicle state information corresponding to the vehicle position information included in the travel point. The vehicle information analysis apparatus according to claim 3, wherein when at least one of the driving operations, the statistical value does not satisfy a standard, it is specified that a problem occurs at the travel point. . The vehicle state information includes information on a driving scene indicating a scene in which the vehicle is driven,
The vehicle information analysis apparatus according to any one of claims 1 to 4, wherein the driving state information includes information on the driving scene in question at the travel point. A vehicle information collection unit that collects vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from a sensor;
A vehicle information transmitter for transmitting the vehicle state information and the vehicle position information to a vehicle information analyzer;
From the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information, and a problem at the travel point. An analysis result receiving unit that receives an analysis result including driving state information indicating the driving state
An output unit that outputs output information generated based on at least a part of the analysis result. When the analysis results indicate that there is a problem at the driving point,
The output information includes driving control information for controlling the host vehicle so as to improve the problem at the travel point,
The driving support device according to claim 6, wherein the output unit generates the driving control information based on the driving state information and the vehicle state information. The driving support device according to claim 6 or 7,
The vehicle information analysis device,
The driving information system according to any one of claims 1 to 5, wherein the vehicle information analysis device is the vehicle information analysis device according to any one of claims 1 to 5. Receiving vehicle state information including information on movement of a predetermined vehicle and vehicle position information indicating the position of the vehicle;
Based on the vehicle state information and the vehicle position information, whether or not a problem occurs at a predetermined travel point, and the driving state that is a problem at the travel point where the problem occurs,
Information indicating whether or not a problem has occurred at the travel point, and, when a problem has occurred at the travel point, driving state information indicating the driving state in question at the travel point. A vehicle information analysis method characterized by outputting an analysis result. Collecting vehicle state information including information related to movement of the host vehicle and vehicle position information indicating the position of the host vehicle from the sensor;
Transmitting the vehicle state information and the vehicle position information to a vehicle information analyzer;
From the vehicle information analysis device, information on whether or not a problem has occurred at the travel point for the travel point included in a predetermined range from the position indicated by the vehicle position information, and a problem at the travel point. Receiving analysis results including driving status information indicating the driving status
Output information generated based on at least a part of the analysis result is output.

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