KR20210021204A - Intersection collision avoidance system and method using V2X no-vehicle recognition - Google Patents

Abstract

The present invention relates to an intersection collision prevention system using vehicle-to-everything (V2X) non-equipped vehicle recognition. According to the present invention, the intersection collision prevention system comprises: a front vehicle recognition unit for recognizing a front vehicle through a sensor to obtain front vehicle sensing information; a receiving unit for receiving V2X information from a V2X-equipped vehicle; a V2X non-equipped vehicle determination unit which determines whether the front vehicle is equipped with V2X using driving information of surrounding vehicles included in the V2X information and the recognized front vehicle sensing information; and a transmitting unit which includes V2X non-equipped vehicle information in the V2X information and transmits the V2X non-equipped vehicle information to nearby V2X-equipped vehicles through V2X communication.

Description

Intersection collision avoidance system and method using V2X no-vehicle recognition}

The present invention relates to a system and method for preventing collisions at intersections using the recognition of vehicles not equipped with V2X, and more specifically, V2X for preventing collisions with vehicles not equipped with V2X at intersections using a DAS sensor (Driving Assist System Sensor) and a V2X communication system. It relates to an intersection collision avoidance system using recognition of unloaded vehicles.

In general, the DAS sensor (Driving Assist System Sensor) is for assisting the driving assistance system of a vehicle, and sensors such as radar, camera, and rider play a role in order to recognize a vehicle located in front of the vehicle.

However, the DAS sensor is usually 100m long, and has a disadvantage in that it is vulnerable in an intersection situation that is obscured by the view, so it is not possible to identify a vehicle entering the intersection through its own vehicle.

And V2X is a technology that provides information through a wired and wireless network centering on a vehicle, and is made up of vehicle-to-vehicle wireless communication (V2V) between the vehicle and the vehicle, and wireless communication between the vehicle and infrastructure (V2I: Vehicle to Infrastructure). ), in-vehicle wired and wireless networking (IVN: In-Vehicle Networking), vehicle-to-mobile communication (V2P: Vehicle to Pedestrian), etc.

Vehicles equipped with V2X can determine vehicles entering the intersection by receiving vehicle and road information from surrounding infrastructure or vehicles equipped with V2X.

However, there is a problem in that there is no method for preventing a collision at the intersection because any information cannot be provided in the V2X system for vehicles in which the V2X vehicle entering the intersection is not mounted.

The present invention was conceived to solve the above problem, by using the front vehicle information recognized through the DAS sensor and the surrounding vehicle information provided from the V2X-equipped vehicle, to identify the vehicle without V2X, and the identification information to the surrounding through V2X. By providing it to a vehicle, it aims to increase the safety of a driver on an intersection.

In addition, an object of the present invention is to match the received information of the vehicle without V2X with map information to more accurately predict an expected collision path and provide it to the driver.

The object of the present invention is not limited to the above-mentioned object, and other objects not mentioned will be clearly understood by those skilled in the art from the following description.

An intersection collision avoidance system using V2X unloaded vehicle recognition according to an aspect of the present invention for achieving the above object includes: a front vehicle recognition unit for acquiring front vehicle sensing information by recognizing a vehicle ahead through a sensor; A receiving unit for receiving V2X information from a vehicle equipped with V2X; A V2X unloaded vehicle determination unit determining whether a vehicle in front is equipped with a V2X using driving information of surrounding vehicles included in the V2X information and the identified front vehicle sensing information; And a transmitter configured to transmit the V2X non-equipped vehicle information to the surrounding V2X-equipped vehicles through V2X communication.

It is preferable that the front vehicle identification unit is one of a camera, a radar, and a rider.

In addition, the V2X information transmitted by the transmitter may include one or more of information on a location, speed, and vehicle type of a vehicle determined not to be equipped with a V2X.

In addition, in an embodiment of the present invention, a map information receiver for receiving V2X information including map information from an infrastructure device; A V2X mounting determination unit for determining whether V2X information received from the V2X-equipped vehicle includes information on a non-V2X vehicle; And if the V2X non-equipped vehicle information is included, the V2X unloaded vehicle information is matched with the map information to calculate the route information of the V2X unloaded vehicle, and a collision predicted through the calculated route information of the V2X non-equipped vehicle and the own vehicle route information It further includes a collision risk determination unit for determining the path.

Further, the collision risk determination unit may determine a collision risk between the own vehicle and a vehicle without V2X, and may notify the driver of the collision risk when the collision risk is greater than or equal to a preset reference value.

In another aspect of the present invention, a method for preventing collision at an intersection using recognition of a vehicle without V2X includes the steps of recognizing a vehicle in front through a sensor to obtain sensing information for a vehicle in front; Receiving V2X information from the V2X-equipped vehicle; Determining whether front vehicle sensing information is included in the received V2X information; If the V2X information does not include front vehicle sensing information in the determining step, determining whether the front vehicle is equipped with the V2X using driving information of the surrounding vehicle and the identified front vehicle sensing information included in the V2X information; And transmitting the V2X non-equipped vehicle information in the V2X information to the surrounding V2X-equipped vehicles through V2X communication.

In addition, it is preferable that the transmitted V2X information includes at least one of information on a location, speed, and vehicle type for a vehicle determined not to be equipped with a V2X.

In the step of recognizing the vehicle ahead, one of a camera, a radar, and a rider may be used.

And if the V2X information includes front vehicle sensing information in the determining step, receiving V2X information including map information from the infrastructure device; Determining whether the V2X information received from the V2X-equipped vehicle includes V2X non-equipped vehicle information; If the V2X unloaded vehicle information is included, calculating route information of the V2X unloaded vehicle by matching the V2X unloaded vehicle information with the map information; And determining a collision predicted path based on the calculated path information of the vehicle without V2X and the path information of the host vehicle.

Meanwhile, in the determining of the predicted collision path, it is preferable to determine the collision risk between the host vehicle and the vehicle without V2X, and notify the driver of the collision risk when the collision risk is greater than or equal to a preset reference value.

According to an embodiment of the present invention, by recognizing a vehicle without V2X from a sensor for recognizing a front vehicle and V2X information provided, and providing the recognized V2X unloaded vehicle information to another V2X vehicle, including the V2X information, another V2X vehicle There is an effect that can prevent a collision with a vehicle without V2X at this intersection.

In addition, according to another effect of the present invention, the route information of the non-V2X vehicle and the route information of the host vehicle are calculated using the V2X-unloaded vehicle information and map information provided from other V2X vehicles, and collision prediction through the calculated route information By improving the accuracy of route calculation, there is an effect of increasing driver safety.

1 is a block diagram illustrating a system for preventing collision at an intersection using recognition of a vehicle without V2X according to an embodiment of the present invention.
2 is a reference diagram for explaining an intersection collision avoidance system using recognition of a vehicle without V2X according to an embodiment of the present invention.
3 is a flowchart for setting an intersection collision avoidance method using recognition of a vehicle without V2X according to an embodiment of the present invention.

Advantages and features of the present invention, and a method of achieving them will become apparent with reference to the embodiments described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in various forms different from each other, and only these embodiments make the disclosure of the present invention complete, and common knowledge in the technical field to which the present invention pertains. It is provided to completely inform the scope of the invention to those who have it, and the invention is only defined by the scope of the claims. Meanwhile, terms used in the present specification are for explaining embodiments and are not intended to limit the present invention. In this specification, the singular form also includes the plural form unless specifically stated in the phrase. As used in the specification, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements in which the recited components, steps, operations and/or elements Or does not exclude additions.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. 1 is a block diagram illustrating a system for preventing collision at an intersection using recognition of a vehicle without V2X according to an embodiment of the present invention.

As shown in Figure 1, the intersection collision avoidance system using V2X unloaded vehicle recognition according to an embodiment of the present invention includes a front vehicle recognition unit 110, a reception unit 120, a V2X non-equipped vehicle determination unit 130, a transmission unit ( 140), and a V2X mounting determination unit 150 and a collision risk determination unit 160.

The front vehicle recognition unit 110 recognizes the front vehicle through a sensor. The front vehicle recognition unit 110 is one of a camera, a radar, and a rider, and manages information received from a sensor capable of recognizing a front object. The front vehicle recognition unit 110 may recognize information such as the location, speed, and direction of an object (vehicle or moving object) received from the sensor, and the detected front vehicle sensing information is determined by the V2X non-equipped vehicle determination unit 130 To provide.

The receiving unit 120 receives V2X information from a vehicle equipped with V2X. In the present embodiment, only the V2X information is received from the V2X-equipped vehicle, but the V2X information may be received from the infrastructure device.

The V2X non-equipped vehicle determination unit 130 determines whether the front vehicle is equipped with the V2X using driving information of the surrounding vehicle included in the V2X information and the identified front vehicle sensing information. That is, the V2X non-equipped vehicle determination unit 130 identifies the relative position of the front vehicle from the front vehicle recognition unit 110, and then converts the GPS position of the own vehicle into a relative position relative to the own vehicle, thereby obtaining the relative position of the front vehicle, and It is determined whether or not the vehicle is the same as the vehicle in front identified by using the GPS location and speed information included in the V2X information received from the surrounding vehicle from 120.

At this time, the difference value for determining the same vehicle can be adjusted in the environment setting. If the difference between the location information of the surrounding vehicle identified through V2X information and the front vehicle information recognized through the sensor is larger than the environment setting value, it is determined as another vehicle, and the vehicle in front is regarded as a vehicle without V2X.

In addition, when it is determined that the vehicle not equipped with V2X, the vehicle determining unit 130 without V2X may convert the information through a validity check such as distance.

The transmission unit 140 includes information on vehicles not equipped with V2X in V2X information and transmits them to surrounding vehicles equipped with V2X through V2X communication. At this time, the reception unit 120 and the transmission unit 140 process V2X information including all communication methods between vehicles and other objects, which are vehicle-to-vehicle or vehicle-to-infrastructure communication methods, and the location and speed of the vehicle determined not to be equipped with V2X , It is possible to transmit and receive V2X information including necessary information for the V2X service, including the vehicle type.

According to an embodiment of the present invention, by recognizing a vehicle without V2X from a sensor for recognizing a front vehicle and V2X information provided, and providing the recognized V2X unloaded vehicle information to another V2X vehicle, including the V2X information, another V2X vehicle There is an effect that can prevent a collision with a vehicle without V2X at this intersection.

Meanwhile, the receiving unit 120 receives V2X information including map information from the infrastructure device 200. In the present embodiment, it is described that map information is received from the infrastructure device 200, but map information held by the vehicle may be used.

The V2X mounting determination unit 150 determines whether the V2X information received from the V2X-equipped vehicle includes V2X-unloaded vehicle information.

If the vehicle information of the vehicle without V2X is included, the collision risk determination unit 160 calculates route information of the vehicle without V2X by matching the vehicle information without the V2X with the map information, and calculates the route information of the vehicle without V2X and the vehicle The predicted collision path is determined through path information. In other words, it is possible to calculate the predicted collision path between the host vehicle entering the intersection and the vehicle not equipped with V2X using the route and the intersection point of the map. On the other hand, if the V2X non-equipped vehicle information is not included, a general V2X service is provided, and the front vehicle may be included in the V2X safety service of the own vehicle.

2 is a reference diagram for explaining an intersection collision avoidance system using recognition of a vehicle not equipped with V2X according to an embodiment of the present invention.

As shown in FIG. 2, the vehicle 101, the vehicle 102, the vehicle 103, and the vehicle 104 are V2X-equipped vehicles, and the vehicle 105 is a V2X-free vehicle. Accordingly, the vehicle 101, the vehicle 102, the vehicle 103, and the vehicle 104 may provide their own driving information to nearby vehicles through V2X communication.

Further, the vehicle 101, the vehicle 102, the vehicle 103, and the vehicle 105 are driving on a road in the same direction at an intersection, and the vehicle 103 is a vehicle driving on a road having a different driving direction.

First, the V2X-equipped vehicle 101 recognizes the front vehicle 105 through the front vehicle recognition unit 110 and acquires front vehicle sensing information on the vehicle 105.

In addition, the V2X-equipped vehicle 101 receives V2X information from the vehicle 102, the vehicle 103, and the vehicle 104 through the receiving unit 120. At this time, since the vehicle 102 and the vehicle 103 are V2X-equipped vehicles, not only their own driving information but also driving information of neighboring vehicles can be provided to the vehicle 101 through V2X communication, but the vehicle 105 is V2X. V2X information on the vehicle 105 cannot be provided to the vehicle 101 because it is not a mounted vehicle.

Accordingly, the vehicle 101 can receive only information on the vehicle 102 and the vehicle 103 on which the V2X is mounted through V2X communication.

However, although the vehicle 101 recognizes that the vehicle 105 is located in the front through the front vehicle recognition unit 110, the vehicle 105 is not received as the V2X information of the vehicle 105 is received. It is judged as a vehicle not equipped with V2X.

Thereafter, the vehicle 101 includes the front vehicle sensing information of the vehicle 105 in V2X and provides it to the vehicle 102, vehicle 103, and vehicle 104 on which other V2X is mounted through the transmission unit 104.

Then, the vehicle 104 also receives V2X information from the vehicles 101 to 103. Here, the V2X information received from the vehicle 101 among the V2X information received by the vehicle 104 includes front vehicle sensing information.

Accordingly, the vehicle 104 determines whether or not the V2X information includes sensing information of the forward vehicle through the V2X mounting determination unit 150.

If the V2X non-equipped vehicle information is included, the collision risk determination unit 160 of the vehicle 104 matches the V2X unloaded vehicle information with the map information to calculate the route information p1 of the V2X unloaded vehicle, and the calculated V2X The predicted collision path is determined through the path information of the unloaded vehicle and the path information of the own vehicle (p2). In this case, the map information may be provided from the infrastructure device 200 through V2X communication.

Thereafter, the collision risk determination unit 160 may determine a collision risk between the own vehicle and a vehicle without V2X, and if the collision risk is greater than or equal to a preset reference value, the collision risk may be notified to the driver.

Hereinafter, a method of preventing collision at an intersection using recognition of a vehicle without V2X according to an embodiment of the present invention will be described with reference to FIG. 3.

First, the front vehicle is recognized through a sensor to obtain front vehicle sensing information (S100). In the step of recognizing the vehicle ahead, one of a camera, a radar, and a rider may be used.

Subsequently, V2X information is received from the vehicle equipped with V2X (S200). In an embodiment of the present invention, it has been described that V2X information is received from a vehicle equipped with V2X, but the present invention is not limited thereto, and V2X information may be received from an infrastructure device.

Then, it is determined whether the V2X information received from the V2X-equipped vehicle includes information on the non-V2X vehicle (S300).

If the information on the vehicle without V2X is not included in the determination step (S300), it is determined whether the vehicle in front is equipped with the V2X using the driving information of the surrounding vehicle and the identified front vehicle sensing information included in the V2X information ( S400).

The V2X non-equipped vehicle information is included in the V2X information and transmitted to the surrounding V2X-equipped vehicles through V2X communication (S500).

On the other hand, if the information on the vehicle without V2X is included in the determination step (S300) (YES), the information on the vehicle without V2X is matched with the map information to calculate route information of the vehicle without V2X (S600).

A collision predicted path is determined based on the calculated path information of the vehicle without V2X and the path information of the host vehicle (S700). In determining the collision predicted path (S700), the collision risk between the host vehicle and the vehicle without V2X is determined, and when the collision risk is greater than or equal to a preset reference value, the collision risk is notified to the driver, and the collision warning at the intersection may be terminated.

In the above, the configuration of the present invention has been described in detail with reference to the accompanying drawings, but this is only an example, and various modifications and changes within the scope of the technical idea of the present invention are those of ordinary skill in the technical field to which the present invention belongs. Of course this is possible. Therefore, the scope of protection of the present invention should not be limited to the above-described embodiments, but should be determined by the description of the following claims.

110: front vehicle recognition unit 120: receiving unit
130: V2X non-equipped vehicle determination unit 140: Transmitter
150: V2X mounting determination unit 160: collision risk determination unit

Claims (12)

A front vehicle recognition unit for acquiring front vehicle sensing information by recognizing a front vehicle through a sensor;
A receiving unit for receiving V2X information from a vehicle equipped with V2X;
A V2X unloaded vehicle determination unit determining whether a vehicle in front is equipped with a V2X using driving information of surrounding vehicles included in the V2X information and the identified front vehicle sensing information; And
An intersection collision avoidance system using V2X unloaded vehicle recognition including a transmitter that includes V2X unloaded vehicle information in V2X information and transmits it to surrounding V2X vehicles through V2X communication.
The method of claim 1,
The front vehicle recognition unit,
An intersection collision avoidance system using V2X unequipped vehicle recognition that one of a camera, a radar and a rider is used.
The method of claim 1,
The V2X information transmitted by the transmitter
An intersection collision prevention system using V2X non-equipped vehicle recognition, which includes one or more of information on the location, speed, and vehicle type of the vehicle determined not to be equipped with V2X.
The method of claim 1,
The receiving unit,
A name that receives V2X information from an infrastructure device.
The method of claim 1,
Map information receiving unit for receiving V2X information including map information from the infrastructure device;
A V2X mounting determination unit that determines whether V2X information received from the V2X-equipped vehicle includes information on a non-V2X vehicle; And
If the V2X unloaded vehicle information is included, the V2X unloaded vehicle information is matched with the map information to calculate the route information of the V2X unloaded vehicle, and the predicted collision path through the calculated route information of the V2X unloaded vehicle and the own vehicle's path information An intersection collision prevention system using V2X non-equipped vehicle recognition including a collision risk determination unit to determine the
The method of claim 5,
The collision risk determination unit,
An intersection collision avoidance system using V2X-free vehicle recognition that determines the risk of collision between the own vehicle and the vehicle without V2X and informs the driver of the collision risk when the collision risk is higher than a preset reference value.
Acquiring front vehicle sensing information by recognizing a front vehicle through a sensor;
Receiving V2X information from the V2X-equipped vehicle;
Determining whether front vehicle sensing information is included in the received V2X information;
If the V2X information does not include front vehicle sensing information in the determining step, determining whether the front vehicle is equipped with the V2X using driving information of the surrounding vehicle and the identified front vehicle sensing information included in the V2X information; And
An intersection collision avoidance method using V2X unloaded vehicle recognition, comprising the step of including the V2X unloaded vehicle information in the V2X information and transmitting the V2X vehicle information to surrounding V2X vehicles through V2X communication.
The method of claim 7,
In the V2X information to be transmitted,
An intersection collision prevention method using V2X non-equipped vehicle recognition, which includes one or more of information on the location, speed, and vehicle type of the vehicle determined not to be equipped with V2X.
The method of claim 7,
Recognizing the vehicle ahead,
A method for preventing collision at an intersection using one of a camera, a radar, and a rider is used.
The method of claim 7,
The receiving step,
Name to receive V2X information from the infrastructure device.
The method of claim 7,
If the V2X information includes front vehicle sensing information in the determining step, receiving V2X information including map information from an infrastructure device;
Determining whether the V2X information received from the V2X-equipped vehicle includes V2X-free vehicle information;
If the V2X unloaded vehicle information is included, calculating route information of the V2X unloaded vehicle by matching the V2X unloaded vehicle information with the map information; And
An intersection collision avoidance method using V2X unloaded vehicle recognition further comprising the step of determining an expected collision path through the calculated path information of the vehicle without V2X and the path information of the host vehicle.
The method of claim 10,
The step of determining the collision expected path,
An intersection collision prevention method using V2X-free vehicle recognition to determine the collision risk between the own vehicle and the vehicle without V2X, and notify the driver of the collision risk when the collision risk is higher than a preset reference value.

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