KR102263729B1 - System and method for correcting position information of surrounding vehicle - Google Patents

Abstract

The present invention relates to a system and method for providing location information of vehicles driving in the vicinity of a driving vehicle.
A system for correcting position information of surrounding vehicles according to an aspect of the present invention obtains identification information of a second vehicle driving in front of a first vehicle on a curved road, measures the distance between the first vehicle and the second vehicle, and A front vehicle information acquisition unit that determines the position information of the second vehicle by determining the relative position of the second vehicle with respect to the current position of the first vehicle, and the surrounding vehicle information that receives identification information and location information of neighboring vehicles driving in the vicinity Comprising a location information correction unit for comparing the receiver and the determined second vehicle location information, and the location information of the surrounding vehicle having identification information matching the second vehicle identification information, and correcting the location information of the surrounding vehicle according to the comparison result characterized in that

Description

A system and method for correcting location information of surrounding vehicles {SYSTEM AND METHOD FOR CORRECTING POSITION INFORMATION OF SURROUNDING VEHICLE}

The present invention relates to a system and method for providing location information of vehicles traveling in the vicinity of a driving vehicle, and more specifically, correcting an error in location information of vehicles traveling in the vicinity and based on the corrected location information. A system and method for providing information of surrounding vehicles.

ADAS (Advanced Driver Assistance System) is a system that assists driving based on information acquired through sensors or communication for the safety and convenience of the driver. Examples include an Autonomous Emergency Braking (AEB) and a Forward Collision Warning System (FCW).

The emergency braking system or forward collision warning system provides safe driving services according to information obtained through sensors, or decelerates, emergency braking, etc. of a vehicle driving in the front among information received from nearby vehicles through vehicle-to-vehicle communication (V2V). It is possible to reduce the risk of an accident by giving a warning to the driver or controlling the vehicle itself based on the information of the vehicle.

At this time, when the emergency braking system and the forward collision warning system provide a safe driving service based on information received through vehicle-to-vehicle communication, since it is necessary to identify whether the information is of a vehicle driving in the front, Based on the location information and the driving road information, information received from the vehicle driving in front is identified.

However, since the location information received from the surrounding vehicle is based on the GPS signal of the surrounding vehicle, there is a problem that incorrect location information of the surrounding vehicle may be received if an error in the GPS signal occurs.

1A and 1B show an example of receiving incorrect location information from a surrounding vehicle. FIG. 1A shows the actual driving positions of the vehicle and the surrounding (front) vehicle, and FIG. 1B is a GPS signal received from the surrounding vehicle. It is based on the recognition of the location of the surrounding vehicle, and shows the case of recognizing the wrong location due to the error of the GPS signal.

That is, although the vehicle is actually driving in the same state as in FIG. 1A, it is recognized as the driving situation as shown in FIG. 1B due to an error in the GPS signal received from the surrounding vehicle. It is not recognized as a driver, causing a problem that the driving assistance system does not work.

In order to solve the above problem, the present invention compares the position of the vehicle in front determined by acquiring information of the vehicle ahead on a curved road with the position information of the vehicle in front received through inter-vehicle communication, thereby providing location information received from surrounding vehicles. An object of the present invention is to provide a system and method for correcting position information of surrounding vehicles that can accurately correct

The system for correcting position information of surrounding vehicles according to the present invention obtains identification information of a second vehicle driving in front of a first vehicle on a curved road, measures the distance between the first vehicle and the second vehicle, and the first vehicle A front vehicle information acquisition unit that determines the position information of the second vehicle by determining the relative position of the second vehicle with respect to the current position of Comprising a location information correction unit for comparing the determined location information of the second vehicle with the location information of the surrounding vehicle having identification information matching the identification information of the second vehicle, and correcting the location information of the surrounding vehicle according to the comparison result characterized.

The forward vehicle information acquisition unit measures the distance between the first vehicle and the second vehicle through a radar or laser scanner.

The front vehicle information acquisition unit calculates the location information of the second vehicle by using the information (the entire lane and curvature of the road) of the curved road being driven.

The front vehicle information obtaining unit determines the relative position of the second vehicle with respect to the current position of the first vehicle by using the distance and the direction of the second vehicle.

The location information correction unit transmits the corrected location information of the surrounding vehicles to the driver assistance system (eg FCW).

The position information correcting unit determines a correction value from the difference between the calculated position information of the second vehicle and the position information of a neighboring vehicle having identification information consistent with the identification information of the second vehicle, and according to the determined correction value, the neighboring vehicle information receiving unit Corrects the location information of surrounding vehicles received by

The location information correcting unit corrects the location information of all surrounding vehicles received by the surrounding vehicle information receiving unit by using the correction value.

The location information correcting unit generates a driving map of surrounding vehicles driving in the vicinity according to the corrected location information.

The method for correcting position information of surrounding vehicles according to the present invention (a) acquires identification information of a forward driving vehicle traveling in front of a first vehicle on a curved road, and the relative position of the forward driving vehicle according to the position of the first vehicle determining the location information of the vehicle driving ahead by determining , (b) receiving identification information and location information of the surrounding vehicle driving in the vicinity; and (c) driving forward among the received identification information of the surrounding vehicle. It is characterized in that it comprises the steps of searching for a nearby vehicle that matches the identification information of the vehicle, and (d) correcting the searched location information of the surrounding vehicle according to the location of the driving vehicle ahead.

In step (a), the distance to the vehicle driving ahead is measured, and the relative position is determined using the measured distance and the current position of the first vehicle.

In step (a), location information of the vehicle driving ahead is determined by using information on a curved road including all lanes and curvature.

The method of correcting position information of a surrounding vehicle according to the present invention further includes the step of (e) providing the corrected position information to the FCW driving assistance system to prevent a collision between the first vehicle and the vehicle driving ahead.

In step (d), a correction value is determined based on a difference between the determined position information of the forward driving vehicle and the retrieved position information of the neighboring vehicle, and the retrieved position information of the neighboring vehicle is corrected according to the determined correction value.

In step (d), the location information of all surrounding vehicles is corrected according to the correction value, and a driving map of the surrounding vehicles is generated according to the corrected location information.

According to the present invention, it is possible to correct the position information of the surrounding vehicle based on the information of the vehicle in front obtained on the curved road, thereby preventing incorrect vehicle position recognition and furthermore, the position information of the vehicle driving in the area not detected by the sensor. can also be corrected.

1A and 1B are views showing an example of a case in which position information correction is required by the system for correcting position information of surrounding vehicles according to an embodiment of the present invention;
2 is a block diagram showing the structure of a system for correcting position information of surrounding vehicles according to an embodiment of the present invention;
3 is a flowchart illustrating a process of a method for correcting location information of surrounding vehicles according to an embodiment of the present invention.

Advantages and features of the present invention and methods of achieving them will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but will be implemented in a variety of different forms, and only these embodiments allow the disclosure of the present invention to be complete, and common knowledge in the technical field to which the present invention belongs It is provided to fully inform the possessor of the scope of the invention, and the present invention is defined by the description of the claims.

On the other hand, the terms used in this specification are for describing the embodiments and are not intended to limit the present invention. As used herein, the singular also includes the plural unless specifically stated otherwise in the phrase. As used herein, "comprises" and/or "comprising" refers to the presence of one or more other components, steps, operations and/or elements in a referenced element, step, operation and/or element. or addition is not excluded. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 shows the structure of a system for correcting position information of surrounding vehicles according to an embodiment of the present invention.

The system 100 for correcting location information of surrounding vehicles according to an embodiment of the present invention includes a front vehicle information obtaining unit 101 , a surrounding vehicle information receiving unit 102 , a location information correcting unit 103 , and a display unit 104 . include

A system for correcting location information of surrounding vehicles according to an aspect of the present invention obtains identification information of a second vehicle driving in front of a first vehicle on a curved road, measures a distance between the first vehicle and the second vehicle, and The front vehicle information acquisition unit 101 that determines the position information of the second vehicle by determining the relative position of the second vehicle with respect to the current position of the vehicle, and the identification information and location information of the surrounding vehicles driving in the vicinity. Comparing the location information of the surrounding vehicle information receiving unit 102 and the determined second vehicle with the location information of the surrounding vehicle having identification information matching the identification information of the second vehicle, and correcting the location information of the surrounding vehicle according to the comparison result and a location information correction unit 103 to

The front vehicle information acquisition unit 101 obtains identification information (number) of the vehicle driving in front of the vehicle, measures the distance to the front vehicle, and calculates the position of the front vehicle using the measured distance.

The front vehicle information acquisition unit 101 identifies the number of the front vehicle through the camera 110 mounted on the vehicle or through inter-vehicle communication. That is, the number of the vehicle in front is obtained and used to identify information received from a vehicle driving in the front among information received from nearby vehicles.

The forward vehicle information acquisition unit 101 measures the distance to the vehicle in front through the radar 120 or laser scanner 130 mounted on the vehicle.

Using the distance to the vehicle ahead measured through the radar 120 or the laser scanner 130, the current location of the vehicle calculated through the GPS 140 signal, and the driving road information obtained from the road map DB 150 The position of the vehicle in front can be calculated. At this time, the road map DB 150 provides information such as the total lane and curvature of the driving road.

Alternatively, the distance to the vehicle in front can be used to calculate the relative position (for example, 00 m on the X-axis and 00 m on the Y-axis) to the current position of the vehicle, and when driving on a curved road, the distance from the vehicle in front and the direction of the vehicle in front It can also be used to calculate the relative position (relative position) of the vehicle in front.

The front vehicle information obtaining unit 101 transmits the acquired front vehicle number and the calculated location of the front vehicle to the location information correcting unit 103 .

The surrounding vehicle information receiving unit 102 receives driving information of surrounding vehicles from surrounding vehicles driving in an area capable of communicating with the vehicle through inter-vehicle communication, and the driving information includes the number of the surrounding vehicle and location information of the surrounding vehicle. .

The surrounding vehicle information receiving unit 102 transmits the received number and location information of the surrounding vehicle to the location information correcting unit 103 .

The location information correcting unit 103 compares the information of the front vehicle received from the front vehicle information acquisition unit 101 with the information of the surrounding vehicle received from the surrounding vehicle information receiving unit 102, and corrects and corrects the location information of the surrounding vehicle. A driving map of surrounding vehicles is created according to the location information.

The location information correcting unit 103 searches for information of surrounding vehicles including the same vehicle number as that of the front vehicle in the information of surrounding vehicles received from the surrounding vehicle information receiving unit 102 .

When the information of the surrounding vehicle including the same number as the number of the vehicle in front is checked, it can be seen that the information of the nearby vehicle is actually transmitted by the vehicle driving in front, so the location information received from the surrounding vehicle is transferred to the vehicle in front. It compares with the position of the vehicle in front received from the information acquisition unit 101 .

If the location information received from the surrounding vehicle recognized as the front vehicle is the same as the location of the front vehicle calculated by the front vehicle information acquisition unit 101 or is within a certain range from the location of the front vehicle, the location information received from the surrounding vehicle is Since it can be viewed as accurate information without errors, a driving map of the surrounding vehicles driving in the vicinity of the vehicle is generated according to the location information received from the surrounding vehicles.

If the difference between the location information received from the surrounding vehicle and the location calculated by the front vehicle information acquisition unit 101 is out of a certain range, it can be seen that the location information received from the surrounding vehicle is inaccurate information due to a GPS error.

Accordingly, the position information correcting unit 103 calculates a correction value according to the difference between the position information received from the neighboring vehicle and the position calculated by the front vehicle information obtaining unit 101, and according to the calculated correction value, the position information received from the neighboring vehicle Correct location information.

At this time, only the position information received from the surrounding vehicle recognized as the front vehicle may be corrected according to the calculated correction value, but the position information of all the surrounding vehicles received by the surrounding vehicle information receiving unit 102 is corrected according to the calculated correction value. You may.

The location information correcting unit 103 generates a driving map of the surrounding vehicle driving in the vicinity of the vehicle based on the corrected location information, and displays the generated driving map through the display unit 104 to inform the driver of the driving in the vicinity. It can provide accurate location information of nearby vehicles.

In addition, the location information correction unit 103 transmits the corrected location information or the generated driving map of the surrounding vehicle to the driving support system 200 so that the driving support system 200 can use it to identify the information of the vehicle in front. .

Therefore, according to the present invention, the position information received from the neighboring vehicle recognized as the front vehicle among the position information of the surrounding vehicle received through inter-vehicle communication is compared with the position of the front vehicle calculated based on the information obtained through the sensor, By correcting, accurate location information can be provided to the driver or the driving support system 200 even when there is an error in location information received through vehicle-to-vehicle communication.

3 is a view showing a process of a method of correcting position information of a surrounding vehicle according to an embodiment of the present invention.

The method for correcting position information of surrounding vehicles according to the present invention obtains identification information of a forward driving vehicle driving in front of a first vehicle on a curved road, and determines the relative position of the forward driving vehicle according to the position of the first vehicle. , determining the location information of the forward driving vehicle, receiving identification information and location information of the surrounding vehicle driving in the vicinity, and the surrounding vehicle matching the identification information of the forward driving vehicle among the received identification information of the surrounding vehicle and correcting the searched location information of the surrounding vehicle according to the location of the forward driving vehicle.

The system for correcting location information of surrounding vehicles recognizes the number of the vehicle driving in front (S300), and measures the distance to the vehicle in front through radar or the like (S310). Then, the position of the vehicle in front is calculated based on the distance from the vehicle in front, the current position of the vehicle, and the driving road information ( S320 ).

That is, the present invention determines the accuracy of the location information received through inter-vehicle communication based on the information of the vehicle ahead, so that location information of vehicles traveling in an area not detected by a sensor can also be corrected.

The system for correcting location information of surrounding vehicles receives driving information including numbers and location information of surrounding vehicles from the surrounding vehicles while acquiring information on the preceding vehicle ( S330 ).

Then, information including the same number as the number of the vehicle in front among the information received from the surrounding vehicle is searched (S340).

When information including the same number as the number of the vehicle in front is identified among the information received from the surrounding vehicle, it is possible to recognize that the identified surrounding vehicle is a vehicle driving in the front, so that the location information of the identified surrounding vehicle is obtained through the sensor. It compares with the position of the vehicle in front (S350).

If the location information of the identified surrounding vehicle is the same as the location of the acquired front vehicle or the difference is within a certain range (S360), the location information received from the surrounding vehicle can be viewed as information without error, so the received location information is driven A driving map of surrounding vehicles is generated based on the location information provided to the support system or received (S390).

When the difference between the identified location information of the surrounding vehicle and the obtained location of the vehicle ahead is out of a certain range (S360), the location information received from the surrounding vehicle may be viewed as inaccurate information due to an error in the GPS information, so the received A correction value is calculated based on the difference between the position information and the position of the vehicle in front (S370).

Then, the received position information is corrected according to the calculated correction value (S380). At this time, by correcting all the received position information of the surrounding vehicle according to the calculated correction value, it is also possible to correct the position information of the surrounding vehicle while driving in an area capable of communicating with the vehicle but not detected by the sensor.

Therefore, according to the present invention, accurate location information of the surrounding vehicle is provided to the driver by correcting the error of the location information received from the surrounding vehicle, and the driving support system can accurately identify the information of the front vehicle received through inter-vehicle communication. By doing so, it is possible to provide an accurate driving support service according to the driving situation of the vehicle in front.

The above description is merely illustrative of the technical idea of the present invention, and various modifications and variations are possible without departing from the essential characteristics of the present invention by those skilled in the art to which the present invention pertains. Accordingly, the embodiments expressed in the present invention are not intended to limit the technical spirit of the present invention, but to illustrate, and the scope of the present invention is not limited by these embodiments. The protection scope of the present invention should be construed by the following claims, and all technical ideas that are equivalent to or within the equivalent range should be construed as being included in the scope of the present invention.

100: location information correction system of surrounding vehicles

Claims (16)

Acquire identification information of a second vehicle driving in front of the first vehicle on a curved road, measure the distance between the first vehicle and the second vehicle, and determine the position of the second vehicle with respect to the current location of the first vehicle. a front vehicle information acquisition unit that determines a relative position to determine position information of the second vehicle;
A surrounding vehicle information receiving unit for receiving identification information and location information of surrounding vehicles driving in the vicinity; and
The determined location information of the second vehicle is compared with the location information of the surrounding vehicle having identification information that matches the identification information of the second vehicle, and the location information received by the surrounding vehicle information receiver is corrected according to the comparison result and a location information correction unit for transmitting the corrected location information to a driving support system including at least one of an emergency braking system and a forward collision warning system
Position information correction system of surrounding vehicles comprising a.
According to claim 1,
The front vehicle information acquisition unit measures the distance between the first vehicle and the second vehicle through a radar or a laser scanner.
Position information correction system for surrounding vehicles.
According to claim 1,
The front vehicle information obtaining unit calculates the location information of the second vehicle by using the information on the curved road being driven.
Position information correction system for surrounding vehicles.
4. The method of claim 3,
The information on the curved road includes all lanes and curvature of the road
Position information correction system for surrounding vehicles.
According to claim 1,
The front vehicle information obtaining unit determines the relative position of the second vehicle with respect to the current position of the first vehicle by using the distance and the direction of the second vehicle.
Position information correction system for surrounding vehicles.
delete delete According to claim 1,
The location information correction unit
A correction value is determined from the difference between the determined position information of the second vehicle and the position information of the neighboring vehicle having identification information consistent with the identification information of the second vehicle, and according to the determined correction value, the neighboring vehicle information receiving unit Correcting the location information of surrounding vehicles received by
Position information correction system for surrounding vehicles.
9. The method of claim 8,
The location information correcting unit corrects the location information of all surrounding vehicles received by the surrounding vehicle information receiving unit by using the correction value.
Position information correction system for surrounding vehicles.
10. The method of claim 9,
The location information correcting unit generates a driving map of the surrounding vehicles driving in the vicinity according to the corrected location information
Position information correction system for surrounding vehicles.
(a) on a curved road, obtain identification information of a forward driving vehicle driving in front of a first vehicle, determine a relative position of the forward driving vehicle according to the position of the first vehicle, and determine the position of the forward driving vehicle determining information;
(b) receiving identification information and location information of surrounding vehicles driving in the vicinity;
(c) searching for a neighboring vehicle matching the identification information of the forward driving vehicle among the received identification information of the surrounding vehicle;
(d) correcting the searched location information of the surrounding vehicle according to the location of the forward driving vehicle; and
(e) transmitting the location information corrected in step (d) to a driving support system including at least one of an emergency braking system and a forward collision warning system to prevent a collision between the first vehicle and the vehicle ahead step
A method of correcting location information of surrounding vehicles, including a.
The method of claim 11, wherein (a) step,
Measuring the distance to the forward driving vehicle, and determining the relative position using the measured distance and the current position of the first vehicle
A method of correcting location information of nearby vehicles.
The method of claim 11, wherein (a) step,
Determining the location information of the forward driving vehicle by using information on the curved road including all lanes and curvature
A method of correcting location information of nearby vehicles.
delete The method of claim 11, wherein step (d) is
determining a correction value from a difference between the determined position information of the forward driving vehicle and the retrieved position information of the neighboring vehicle, and correcting the retrieved position information of the neighboring vehicle according to the determined correction value;
A method of correcting location information of nearby vehicles.
The method of claim 15, wherein step (d) comprises:
Correcting the location information of all surrounding vehicles according to the correction value, and generating a driving map of the surrounding vehicles according to the corrected location information
A method of correcting location information of nearby vehicles.

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