JP3740524B2 - Driving support road system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a driving support road system for supporting safe driving of an automobile, and more particularly to a driving support road system that does not hinder traffic safety in a traffic situation where AHS vehicles and non-AHS vehicles are mixed.
[0002]
[Prior art]
The Advanced Cruise-assist Highway System (AHS) uses advanced communication information technology to transfer information related to vehicle travel between information infrastructure equipment installed on the road side and the vehicle. In this system, traffic accidents are reduced and traffic is smoothed. Various sensors and an information processing apparatus that processes information obtained from the sensors are installed in the vicinity of the road so that the behavior of the vehicle traveling on the surrounding road, the road surface condition, and the like are grasped. The situation on the road obtained by the information processing apparatus is transmitted to the in-vehicle processing apparatus mounted on the vehicle in real time via the road-to-vehicle communication apparatus. Based on the information obtained in this way, the in-vehicle processing device provides the driver with information about obstacles ahead of the road, warns of danger, and performs operation support and automatic driving that automatically operate the brake and steering wheel. Or
[0003]
As described above, AHS detects obstacle information on the road that is in front of a vehicle traveling on the road and cannot be recognized from the vehicle by the information infrastructure equipment installed on the road side, and obtains it. By providing such information to vehicles and drivers using roadside-to-vehicle wireless devices between roadside infrastructure and vehicles, various advanced driving support services such as safe driving support are realized. However, in order to receive such a driving support service, it is necessary to mount an AHS compatible device on the vehicle side.
[0004]
For this reason, especially when AHS vehicles are not sufficiently widespread, such as in the early stages of introduction of AHS, vehicles equipped with AHS-compatible equipment (hereinafter referred to as “AHS vehicles”) and AHS-compliant equipment are installed. It is predicted that vehicles that have not been used (hereinafter referred to as “non-AHS vehicles”) will be mixed on the same road.
[0005]
[Problems to be solved by the invention]
By the way, there are many vehicles that run without taking sufficient distance between cars, which is necessary for safety, for example, in a relatively congested traffic situation such as a traffic jam, compared to the case where the road is not congested. It is thought that there is a tendency to increase the number of vehicles that make a sudden interruption or lane change. Also, in such a crowded state on the road, for example, the driver makes communication and checks safety by gesturing etc., such as giving up for smooth traffic, and applying simple traffic rules. In many cases, driving beyond the scope is performed.
[0006]
When AHS is introduced in such a situation and AHS vehicles and non-AHS vehicles are mixed and run, especially in the traffic situation where congestion is high as described above, driving is deviated from normal driving behavior. As the number of vehicles increases, it becomes very difficult to predict the behavior of non-AHS vehicles in particular from infrastructure facilities.
[0007]
Therefore, when the AHS vehicle driver performs automatic control such as an operation support service or an automatic driving service under a situation where the congestion degree is relatively high and the AHS vehicle and the non-AHS vehicle are mixed and pass, the driver of the AHS vehicle Overconfidence may lead to traffic accidents and may hinder safety. Even when only providing information and warning services in relatively crowded traffic conditions, the driver pays too much attention to the in-vehicle display device and neglects attention to surrounding traffic conditions. Conceivable.
[0008]
Further, when the number of vehicles existing in a range (hereinafter referred to as “service provision range”) for providing a driving support service due to traffic jams or the like increases, the traffic in road-to-vehicle communication increases accordingly. On the other hand, since the communication band that can be used for road-to-vehicle communication is determined, if a large amount of traffic in road-to-vehicle communication or various services are to be performed on a large number of vehicles, there is a shortage of communication channels. There is a possibility that problems such as the generation of vehicles that cannot provide services may occur.
[0009]
The present invention solves the above-described problems and overtrusts the driving support service provided by the driving support road system by the driver of the AHS vehicle in a relatively congested traffic situation in which AHS vehicles and non-AHS vehicles are mixed. It is an object of the present invention to provide a driving support road system capable of avoiding a decrease in safety caused by excessive attention to the system.
[0010]
[Means for Solving the Problems]
In order to achieve the above object, the invention described in claim 1 is installed along a road, detects the position and speed of the vehicle, or extracts obstacles on the road to create road state data. A road condition grasping apparatus, a road condition grasping apparatus that is installed along the road and detects road dryness, wetness, and water film conditions to create road condition data, and the road condition grasping apparatus and the road condition grasping apparatus Necessary for travel support services that include information provision services, warning services, operation support services, and automatic travel services that perform predetermined processing based on road condition data and road surface condition data from and provide to vehicles traveling on the road An information processing device that creates travel support information for road condition information and road surface information, a roadside communication device arranged along the road, and an in-vehicle communication device mounted on the vehicle A driving support road system comprising: an inter-vehicle communication device; and an in-vehicle processing device that is mounted on a vehicle and exchanges the driving support information with the information processing device via the road-to-vehicle communication device, Obtained by the information processing apparatus The number of vehicles on the road and the average speed Traffic situation detection means for detecting traffic congestion on the road from the driving support information, and the traffic situation detection means If the traffic congestion on the road detected in is greater than the predetermined congestion, The content of the driving support service provided from the information processing device to the in-vehicle processing device through the road-to-vehicle communication device using the driving support information. To reduce Providing information control means for changing.
[0011]
The invention according to claim 2 is provided along a road, detects a position and speed of a vehicle, or extracts an obstacle on the road to create road state data. A road surface condition grasping device that creates a road surface condition data by detecting dry, wet and water film conditions on the road, and road condition data and road surface condition from the road surface condition grasping device and the road condition grasping device Road condition information and road surface condition information necessary for a driving support service including information providing service, warning service, operation support service, and automatic driving service that perform predetermined processing based on data and provide to vehicles traveling on the road A road-to-vehicle communication device composed of an information processing device for generating driving support information, a roadside communication device arranged along a road, and an in-vehicle communication device mounted on the vehicle; And a vehicle-mounted processing device that transmits and receives the travel support information to and from the information processing device via the road-to-vehicle communication device, and is installed along a road, Information display device for displaying information related to driving support of a vehicle traveling on a road based on driving support information obtained by information processing device, and obtained by said information processing device The number of vehicles on the road and the average speed Traffic situation detection means for detecting traffic congestion on the road from the driving support information, and the traffic situation detection means If the traffic congestion on the road detected in is greater than the predetermined congestion, The content of the driving support service provided from the information processing device to the in-vehicle processing device through the road-vehicle communication device using the driving support information. To reduce Providing information control means for changing, and providing information via the road-to-vehicle communication device according to outputs of the traffic condition detecting means and the providing information control means, or providing information using the information display device It is characterized by determining.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 shows a driving support road system 1 for providing an obstacle collision prevention support service in a curve portion with poor visibility, according to the first embodiment of the present invention. FIG. 2 shows a schematic configuration of the driving support road system 1 for providing the obstacle collision prevention support service. The obstacle collision prevention support service of the driving support road system is a driving support service that is performed to prevent a rear-end collision with an obstacle such as a broken vehicle, a low-speed vehicle, or a falling object that has stopped at a poor-sighted part. .
[0019]
The driving support road system 1 shown in FIG. 1 is provided along a range (hereinafter referred to as “service providing range”) that provides a driving support service on the road 10 including a poor visibility portion 11 that is a curved portion having poor visibility. The installed road condition grasping device 22, the road surface condition grasping device 24, the information processing device 20 capable of processing information obtained by these devices, and the degree of traffic congestion on the road 10 are detected. The traffic information detecting means 28 that can be provided, and the provision information control means 30 that can change the information related to the driving support of the vehicle and the content of the driving support service provided by the driving support road system based on the output of the traffic condition detecting means 28. Road-to-vehicle communication comprising the information display board 32, the base marker 34, and the in-vehicle communication device 26b mounted on the road-side communication device 26a and the AHS vehicle 50. A device 26, is constituted by the vehicle processing apparatus shown in FIG. 2 mounted on the AHS vehicle 50.
[0020]
The road condition grasping device 22 includes at least one sensor such as a visible camera, an infrared camera, and a millimeter wave sensor installed along the road 10, and an image processing device that processes an image signal input from these sensors. A function for measuring and tracking and managing the position and speed of the vehicle 50 in the sensor measurement range on the road 10, a vehicle that has stopped on the road 10 from the measured data, a low-speed vehicle, a fallen object, etc. It has a function of extracting and managing the obstacle 60 and a function of transmitting information on the position, speed, and obstacle of the vehicle to the information processing apparatus 20.
[0021]
Further, the road surface condition grasping device 24 is installed along the road 10, for example, at least one sensor such as a radioradiometer sensor, a laser radar type sensor, a distributed road surface condition detecting device using an optical fiber, and the like. It consists of a road surface condition estimation device that can process the input from the sensor to estimate the condition of the road surface, such as dryness and wetness, water film, etc., and information on road surface conditions such as the slipperiness of vehicles on the road surface in the measurement range A road surface condition detecting function capable of measuring the road surface, a function of transmitting collected data to the information processing apparatus 20, and the like.
[0022]
On the other hand, the information processing device 20 has a function of collecting information output from the road condition grasping device 22 and the road surface condition grasping device 24, an AHS vehicle 50, a non-AHS vehicle 70, and a stopped vehicle traveling on the road 10 from these data. A function that extracts information such as the position and speed of the obstacle 60 such as a low-speed vehicle, a falling object, and a road surface condition, and a predetermined process based on the obtained information to create driving support information in a predetermined format A function for transmitting the created driving support information via the road-to-vehicle communication device 26 and the information display board 32, a function for reading road linear data of a road providing a service, and generating and transmitting road linear information, Has functions to manage system operations. As shown in FIG. 2, the information processing apparatus 20 is connected to an AHS center apparatus 100 having an operation management and monitoring function of the information processing apparatus 20 via a communication line, and road linear information and Various constants and parameters necessary for providing a driving support service can be read.
[0023]
As shown in FIG. 2, the road-vehicle communication device 26 includes a road-side communication device 26 a installed on the road side and an in-vehicle communication device 26 b mounted on the vehicle, and travels within the driving support service provision range. A function of performing communication between the existing AHS vehicle 50 and the information processing apparatus 20, and transmitting information such as obstacle information, road surface condition information, road alignment information provided by the information processing apparatus 20 to the in-vehicle processing apparatus Etc. In addition, the roadside communication device has a broadcast communication function that transmits information to all communicable vehicles in the communication range at the same time, and an individual communication function that communicates only with a specific vehicle. When providing information that is common to vehicles or only information on the position of obstacles on the road, etc., a broadcast communication function is used, and a service in operation performed when the AHS vehicle 50 enters or exits the service provision range. When providing different information for each AHS vehicle, such as service-out processing, relative position and relative speed between an obstacle and each vehicle, communication can be performed using an individual communication function. Further, by using the individual communication function of the road-to-vehicle communication device 26, the AHS vehicle 50 has a function of transmitting AHS vehicle information such as information on the speed and position of the host vehicle and vehicle performance to the information processing device 20, The information processing apparatus 20 can also be configured to create travel support information based on the obtained AHS vehicle information and transmit the travel support information to the corresponding vehicle.
[0024]
As shown in FIG. 2, the in-vehicle communication device 26 b and the in-vehicle processing device 52 are mounted on the AHS vehicle 50, and the in-vehicle processing device 52 is based on information received via the road-to-vehicle communication device 26. Thus, it is possible to provide operation support such as providing information to the driver by the in-vehicle display device 152, warning of danger in traveling, or performing speed control by automatic control by the speed control device 160. is doing.
[0025]
The information display board 32 is composed of a variable display board or the like installed in the vicinity of the road in the vicinity of the service providing range, and displays information related to the travel of the vehicle based on the travel support information created by the information processing device 20. In addition, a limited driving support service can be provided to a non-AHS vehicle 70 that does not have an AHS system compatible device such as the in-vehicle communication device 26b and the in-vehicle processing device 52.
[0026]
The base marker 34 is installed on the road 10 and detected by the base marker detection sensor mounted on the vehicle as shown in FIG. 2, and the base point information of the position where the service-in and service-out processing of the AHS vehicle 50 driving support service is performed. To be able to provide.
[0027]
The traffic condition detection means 28 is connected to the information processing device 20, and the traffic congestion degree on the road 10 is obtained from information such as the number of vehicles on the road 10 and the average speed of the vehicle group obtained by the information processing device 20. It is comprised so that it can detect. The provided information control means 30 can change the contents of the driving support service provided by the driving support road system 1 on the road 10 based on the detection result of the traffic condition detecting means 28.
[0028]
Next, the operation of the driving support road system according to the present embodiment configured as described above will be described.
[0029]
The road condition grasping device 22 takes an image of the detection range on the road with a visible camera and an infrared camera installed along the road 10 of the service information provision range, and inputs an image input from each camera sensor to a predetermined value. Are processed by the image processing device at each cycle, so that the position and speed of the vehicle existing within the camera sensor detection range can be detected in real time, or the obstacle 60 such as a falling object, a stopped vehicle, a low-speed vehicle on the road can be detected. Road condition data is created by performing extraction or the like.
[0030]
Further, the road surface condition grasping device 24 detects the state of dryness, wetness, water film, etc. on the road 10 relating to the slipperiness on the road surface at predetermined intervals, and creates road surface state data.
[0031]
As shown in FIG. 2, the information processing apparatus 20 is connected to an AHS center apparatus 100 that performs operation management, status monitoring, and the like of the information processing apparatus 20, and is necessary or necessary at the start of a driving support service after the information processing apparatus 20 is activated. At the time, AHS provides road alignment information representing the road alignment of the service provision range, information on system constants such as sensor placement positions and base marker positions, travel support services such as obstacle determination conditions, and parameter information necessary for the system. It is configured so that it can be downloaded from the center apparatus 100 and used. Then, the information processing apparatus 20 includes the road alignment information and information necessary for the system, road condition data detected by a plurality of road condition grasping apparatuses 22 collected every predetermined cycle, and a road surface condition grasping apparatus. Based on the road surface condition data detected by the vehicle 24, travel support information such as road condition information and road surface information necessary for the driving support service in the service providing range is created. At this time, the information processing apparatus 20 is provided not only in the driving support information for transmission to the AHS vehicle 50 but also in the vicinity of the road 10 for providing information on the obstacle 60 on the road and road surface conditions to the non-AHS vehicle 70. The driving support information to be displayed on the installed information display board 32 is also created.
[0032]
On the other hand, as shown in FIG. 3, an AHS vehicle 50 that has traveled on the road 10 and desires to provide an AHS service approaches the service provision range indicated by the shaded portion in the figure and is installed on the road 10. When the vehicle passes the vicinity of the base marker 34 (point A in FIG. 3), the base marker detection sensor 154 mounted on the service target AHS vehicle 50 detects the base marker 34 and monitors the output from the base marker detection sensor 154. The in-vehicle processing device 52 detects that it has entered the service providing range of AHS. When the AHS vehicle 50 travels to the point B in FIG. 3 where the road-to-vehicle communication device 26 is within communication range, the in-vehicle processing device 52 uses the in-vehicle communication device 26b and the road-to-vehicle communication device 26a that is the infrastructure side equipment of AHS. The wireless communication is performed using the individual communication channel, and a service-in process for performing vehicle ID registration and the like for receiving a driving support service provided by AHS is performed. When the communication between the AHS vehicle 50 and the roadside infrastructure facility is established in this way, the AHS vehicle 50 is provided with the road alignment information and various travel support information provided from the roadside infrastructure facility via the broadcast radio channel of the roadside communication device 26. Will be provided.
[0033]
When there is an obstacle 60 such as a vehicle that has stopped due to failure within this service providing range, the in-vehicle processing device 52 performs various driving support services based on the driving support information received via the road-to-vehicle communication device 26. To start.
[0034]
First, when the distance between the AHS vehicle 50 and the obstacle 60 is sufficiently large (point C in FIG. 3), the in-vehicle processing device 52 emits an electronic sound to call attention to the in-vehicle display device 152 “front obstacle”. By displaying “Yes” or the like, the driver is provided with information on the obstacle 60 ahead. This is an information providing service. When the AHS vehicle 50 further travels (point D in FIG. 3) and the distance from the obstacle 60 becomes shorter than a predetermined distance, the in-vehicle processing device 52 causes the in-vehicle display device 152 to read “front obstacle! A warning is given to the driver by displaying and sounding a warning sound. This is a warning service. Even if the in-vehicle processing device 52 gives an alarm, the driver does not perform deceleration or lane change, and the in-vehicle processing device 52 predicts that the vehicle will collide with the obstacle 60 when the AHS vehicle 50 further travels (FIG. 3). The vehicle-mounted processing device 52 automatically performs vehicle control by emergency braking using the speed control device 160. This is an operation support service.
[0035]
The AHS vehicle 50 is equipped with a device for measuring the position of the host vehicle such as a GPS device or a total distance meter, or the state of the host vehicle or the state around the host vehicle using a sensor attached to each part of the vehicle 50. Is mounted on the road-side information processing device 20 via the individual communication channel of the road-to-vehicle communication device 26, the position / speed of the own vehicle, the acceleration / deceleration state, and the handle operation amount. It is also possible to transmit turn signal information, information on nearby vehicles, and the like. When the information processing device 20 receives such information, it is received from the in-vehicle processing device 52 as well as the road state data and road surface data detected by the infrastructure equipment such as the road state grasping device 22 and the road surface grasping device 24. By adding this information, it is possible to create more precise and detailed driving support information.
[0036]
As described above, the AHS vehicle 50 is provided with an information providing service, a warning service, and an operation support service. Further, it is possible to provide an automatic driving service for automatically driving the vehicle by the in-vehicle processing device 52. For the non-AHS vehicle 70, only the information providing service using the information display board 32 is performed by the information processing device 20. The information processing apparatus 20 creates travel support information for the information display board 32 based on the information of the road situation grasping apparatus 22 and the road surface situation grasping apparatus 24, and the information display board 32 displays, for example, “There is an obstacle 200 meters ahead”. Can be displayed.
[0037]
As described above, in the driving support service in the driving support road system, the driving support service received by the AHS vehicle and the non-AHS vehicle is different, and the AHS vehicle 50 also depends on the functions of the vehicle and the in-vehicle processing device 52. Different driving support services are different. For example, when the speed control device 160 is mounted on the AHS vehicle 50 as described above, the operation support service can be provided, but when the device for performing the travel support is not mounted, information provision and Only the warning service is available. In this way, when all the vehicles traveling on the same road cannot receive the same service, in the traffic situation such as the time when the distance between the vehicles is not wide enough, it is not always safe to drive by the driving support service. It is thought that it cannot be guaranteed.
[0038]
Consider a case where the number of vehicles traveling within the service provision range on the road 10 is large and the AHS vehicle 50 and the non-AHS vehicle 70 are mixed and travel in a relatively high traffic situation. In actual traffic, when the road is congested, it seems that there are many vehicles that are traveling without opening a sufficient distance between vehicles for safety. For example, when a non-AHS vehicle follows the AHS vehicle 50 traveling ahead of the service information provision range without opening a safe inter-vehicle distance, the driving support service of the AHS vehicle 50 works. When the vehicle automatically starts control, there is a risk that the subsequent non-AHS vehicle may collide with the rear portion of the AHS vehicle 50 if it is delayed to notice this.
[0039]
Also, in crowded traffic conditions, there are many vehicles that do not comply with traffic rules such as forced interruptions and sudden lane changes, and simple traffic rules such as concessions are made to facilitate traffic. There are many cases where the driving exceeds the limit. In such a case, the drivers often communicate with each other and confirm safety by gestures and the like, and in many cases, the behavior can be predicted by looking at the behavior of the vehicle such as the blinker. However, in the conventional driving support road system, although it is possible to grasp the behavior of the vehicle traveling within the service providing range by the road condition grasping device 22, it is difficult to grasp the communication between the drivers. If you place excessive reliance on driving support services and neglect attention to surrounding traffic conditions, safety may not be ensured.
[0040]
Therefore, in the driving support road system according to the present embodiment, the information processing device 20 detects the number of vehicles in the service provision range, the average speed of the vehicle, and the like, and the information processing device 20 or the in-vehicle processing device 52 is based on these information. The traffic condition detecting means 28 connected to the terminal detects the degree of traffic congestion in the service providing range. At this time, whether or not the number of vehicles existing in the service providing range detected by the information processing device 20 exceeds the predetermined number, and the average speed of the vehicle group existing in the service providing range is lower than the predetermined speed. The degree of traffic congestion on the road 10 is detected based on whether or not the traffic is on the road. When the detected traffic congestion on the road 10 exceeds a predetermined congestion level, the provision information control means 30 mounted on the vehicle side performs the on-vehicle processing on the in-vehicle processing device 52. The driving support service provided by the device 52 is stopped, and a message such as “information support service is stopped” is displayed on the in-vehicle display device 152 along with an electronic sound to the driver.
[0041]
In addition, when the traffic congestion degree on the road 10 exceeds a predetermined congestion degree, the provision information control means 30 provided in the roadside infrastructure facility changes the content of the driving support service provided by the information processing apparatus 20 For example, to the AHS vehicle 50 that has newly entered the service provision section, data indicating that “the driving support service is stopped” is transmitted to the AHS vehicle 50 via the road-to-vehicle communication device 26, or the road-to-vehicle communication device 26 The driving support service via the road-to-vehicle communication device 26 may be stopped, for example, by stopping transmission of driving support data from the vehicle, and only the information providing service using the information display board 32 may be performed. However, at this time, if the non-AHS vehicle 70 does not exist within the service providing range or is less than the predetermined number, the provided information control means 30 makes a normal road-to-vehicle distance to the information processing device 20 or the in-vehicle processing device 52. It is instructed to provide an obstacle collision support service via the communication device.
[0042]
In such a relatively congested traffic situation, the operation support service is stopped or the contents of the travel support service to be provided can be easily obtained from the detailed travel support service via the road-to-vehicle communication device using the information display board 32. Changing to a driving support service is usually performed in a relatively congested traffic situation because the vehicle will follow the vehicle ahead and the speed will decrease even when entering a poor-sight line. This is because it is easier to avoid the obstacle 60 than when the traffic is not crowded, and it is often unnecessary to provide detailed information, and it is considered that there is no problem.
[0043]
Further, in a relatively congested traffic situation in which AHS vehicles and non-AHS vehicles are mixed, the driving support service provided by the driving support road system is changed to a limited service, so that the driver of the AHS vehicle 50 travels. It is thought that the risk of a decrease in driving safety due to overconfidence of the support road system or monitoring of surrounding traffic conditions can be suppressed.
[0044]
In the present embodiment, it is determined according to the output of the provision information control means 30 whether to perform an obstacle collision prevention support service via the road-to-vehicle communication device or an information provision service using the information sign board 32. However, this does not limit the information providing method for providing the driving support information. For example, the obstacle collision prevention support service via the road-to-vehicle communication device 26 is continuously performed, while the information processing device 20 is provided. Information for displaying a message to call attention to surrounding traffic may be added to the information display device 152 mounted on the AHS vehicle 50 via the road-to-vehicle communication device 26. In the obstacle collision prevention support service, for example, even when the road surface condition grasping device 24 breaks down, a limited service (degeneration service) excluding road surface information can be performed. While the obstacle collision prevention support service is continuously performed, a signal indicating that the degeneration service is being performed may be transmitted from the information processing device 20 via the road-vehicle communication device 26.
[0045]
Furthermore, a signal that restricts the in-vehicle processing device 52 mounted on the AHS vehicle 50 from performing the operation support service or the automatic traveling service from the information processing device 20 via the road-to-vehicle communication device 26 is transmitted to the AHS vehicle. 50 may not perform the operation support service or the automatic driving service. In addition, any method for providing information on the driving support service can be used as necessary.
[0046]
In the present embodiment, the traffic condition detecting means 28 detects the traffic congestion on the road 10 based on the output of the information processing device 20, but the traffic volume or Use information such as the average speed of the vehicle group, and on toll roads, apply traffic volume prediction methods based on vehicle traffic at toll booths to estimate traffic congestion in the driving support service section. Any device can be used as long as it can detect the traffic level of the support service section.
[0047]
Further, the traffic condition detecting means 28 is connected to the information processing device 20 or the road-to-vehicle communication device 26, monitors the amount of communication information such as the number of communication channels used in the road-to-vehicle communication device, and obtained communication information. You may comprise so that the congestion degree of the traffic on the road 10 can be estimated based on quantity.
[0048]
In the present embodiment, the traffic situation detection means 28 and the provision information control means 30 are connected to the roadside information processing apparatus 20, but the traffic situation detection means 28 and the provision information control means 30 are connected to the AHS vehicle 50. 30 or 30 may be mounted and the content of the driving support service may be changed by the in-vehicle processing device 52.
[0049]
Further, in the present embodiment, the case where the present invention is applied to the obstacle collision prevention support service of the driving support road system is shown, but this does not limit the contents of the driving support service provided to the vehicle or the driver at all. Any driving support service may be used as long as it detects the traffic congestion level within the provided range and provides the driving support service according to the traffic congestion level.
[0050]
【The invention's effect】
As described above, by changing the driving support service provided by the driving support road system to a limited service in a relatively congested traffic situation in which AHS vehicles and non-AHS vehicles are mixed, It is possible to suppress the risk of a decrease in driving safety due to the driver overconfidencing the driving support road system or monitoring the surrounding traffic conditions.
[Brief description of the drawings]
FIG. 1 is a diagram illustrating a driving support road system that provides an obstacle collision prevention support service in a poor-sighted area.
FIG. 2 is a configuration diagram of an obstacle collision prevention support service device.
FIG. 3 is a diagram illustrating service contents and service provision timing of an obstacle collision prevention support service.
[Explanation of symbols]
1 Driving support road system
10 road
11 poor visibility
20 Information processing device
22 Road condition grasping device
24 Road surface condition grasping device
26a Roadside communication device
26b In-vehicle communication device
28 Traffic condition detection means
30 Provided information control means
32 Information display board
34 Base marker
50 AHS vehicles
60 obstacles
70 Non-AHS vehicles
100 AHS center equipment
152 On-vehicle display device
154 Base marker detection sensor
156 Obstacle detection sensor
158 Self-vehicle quantity state detection sensor
160 Speed control device

Claims (2)

A road condition grasping device that is installed along the road, detects the position and speed of the vehicle, or extracts obstacles on the road to create road condition data, and is installed along the road and dried on the road A road condition grasping device that detects the condition of the wet, water film and creates road condition data, and performs predetermined processing based on the road condition data and the road condition data from the road condition grasping device and the road condition grasping device Information processing for creating driving support information for road condition information and road surface information necessary for driving support services including information providing services, warning services, operation support services, and automatic driving services provided to vehicles traveling on roads A road-to-vehicle communication device comprising a device, a roadside communication device disposed along the road, and an in-vehicle communication device mounted on the vehicle; and the road-to-vehicle communication device mounted on the vehicle. A driving support road system and a vehicle-mounted processor that exchanges the driving support information to and from the information processing apparatus via,
Traffic condition detection means for detecting the degree of traffic congestion on the road from the number of vehicles on the road obtained by the information processing device and the driving support information of the average speed of the vehicle group ;
Vehicle processing traffic congestion on detected road by the traffic condition detecting means, if they exceed a predetermined congestion degree, from the information processing apparatus by using the driving support information through road-to-vehicle communication device Provision information control means for changing so as to reduce the content of the driving support service provided to the device;
A driving support road system characterized by comprising: A road condition grasping device that is installed along the road, detects the position and speed of the vehicle, or extracts obstacles on the road to create road condition data, and is installed along the road and dried on the road A road condition grasping device that detects the condition of the wet, water film and creates road condition data, and performs predetermined processing based on the road condition data and the road condition data from the road condition grasping device and the road condition grasping device Information processing for creating driving support information for road condition information and road surface information necessary for driving support services including information providing services, warning services, operation support services, and automatic driving services provided to vehicles traveling on roads A road-to-vehicle communication device comprising a device, a roadside communication device disposed along the road, and an in-vehicle communication device mounted on the vehicle; and the road-to-vehicle communication device mounted on the vehicle. A driving support road system and a vehicle-mounted processor that exchanges the driving support information to and from the information processing apparatus via,
An information display device that displays information related to driving support of a vehicle that is installed along a road and travels on the road based on the driving support information obtained by the information processing device;
Traffic condition detection means for detecting the degree of traffic congestion on the road from the number of vehicles on the road obtained by the information processing device and the driving support information of the average speed of the vehicle group ;
When the traffic congestion level detected by the traffic condition detection means exceeds a predetermined congestion level, on- board processing from the information processing device through the road-to-vehicle communication device using the travel support information Providing information control means for changing so as to reduce the content of the driving support service provided to the device,
A travel characterized by determining whether to provide information via the road-to-vehicle communication device or to provide information using the information display device according to outputs of the traffic condition detection means and the provision information control means. Support road system.

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