KR20110055882A

KR20110055882A - Road stud, safety system of crossroad, and managing method thereby

Info

Publication number: KR20110055882A
Application number: KR1020090112497A
Authority: KR
Inventors: 김지훈; 송계수
Original assignee: 삼성에스디에스 주식회사
Priority date: 2009-11-20
Filing date: 2009-11-20
Publication date: 2011-05-26

Abstract

The present invention relates to a road beacon, an intersection safety system, and an operation method thereof, wherein the intersection safety system of the present invention is installed at a vehicle guideline line at an intersection to emit light to identify a guideline, and to detect a violation of a guideline of a vehicle. Controlling the sign system module, the signal system at the intersection, the signal system module for counting the number of guideline violations of the vehicle detected by the road sign bottle module and the traffic related information collected by analyzing the traffic conditions in real time, the signal It includes an intelligent transportation system that stores the number of guideline intrusions of the vehicle transmitted from the system module. According to the present invention, by embedding a road sign bottle that emits light of various colors in conjunction with the traffic system at the intersection of traffic congestion, the effect of preventing accidents by increasing the visibility of the guide line even at night and in bad weather when drivers pass the intersection have.

Traffic, intersections, vehicles, induction lights, LEDs, signaling systems, ITS, beacons, visibility.

Description

Road stud, safety system of crossroad, and managing method

The present invention relates to a road sign bottle, an intersection safety system and a method of operating the same, and more particularly, a road safety bottle embedded along an existing guide line, an intersection safety system including a road sign bottle, and an intersection safety system for preventing a traffic accident. It relates to how to operate the system.

In general, the driving direction of the road is indicated on roads, tunnels, underground roads, foggy roads, sidewalks, and central dividers where vehicles pass through, or drivers or pedestrians easily identify dangerous areas such as traffic accidents or construction at night. Therefore, a safety device called a safety induction lamp or a road sign to prevent a safety accident is installed.

As is well known, road markers are installed at regular intervals along a center line, lane, or guide line of a paved road to allow the driver to easily recognize a center line, lane, guide line, and the like.

The left turn guide line and the straight vehicle guide line at the intersection are rapidly deteriorating the lane due to the traffic and frequent invasion of many vehicles. In this aging section, it is easy for beginners and climber drivers who are unfamiliar with driving directions to make an accident. In addition, at night or in bad weather, the field of view is rapidly limited, and thus, it is difficult for an experienced driver to recognize an old guide line.

In addition, changes in the number of lanes, lane widths, and double-turn lanes at intersections and exit lanes have been pointed out as frequent causes of traffic collisions, and are the main causes of intersection accidents.

The present invention has been made to solve the above problems, and an object of the present invention is to provide a road marking bottle with high visibility to reduce traffic conflicts, which is one of the biggest factors of intersection accidents.

Another object of the present invention is to provide an intersection safety system and a method of operating the same to collect lane infringement at an intersection to improve the design of the intersection later and to facilitate facility inspection.

The intersection safety system of the present invention for achieving the above object is installed on the vehicle guideline line at the intersection to emit light so that the guideline is identified, and to control the signal system at the intersection, road marker bottle to detect the induction of the guideline of the vehicle And, by collecting the signal system module and traffic related information that counts the number of times the guideline intrusion of the vehicle detected by the road sign bottle module to analyze the traffic situation in real time, and provide a guideline violation of the vehicle transmitted from the signal system module It includes an intelligent transportation system that stores the recall.

The road sickness module may emit light in association with the signal system of the signal system module.

The road sign bottle module may include an LED output unit for emitting a light emitting diode (LED) to identify the guide line, an LED controller for controlling the output and color of the LED output unit, and whether the guide line is invaded by the vehicle. It may include a lane intrusion detection unit for detecting and a first signal transmission and reception unit for communication with the signal system module.

In one embodiment of the present invention may further include an induction current collector for supplying power to the road marker bottle module to generate an induction current by receiving power from the signal system module. In this case, the induction current collector may receive power from the signal system module through a signal line for transmitting a signal. The signal line may include a line for transmitting an electrical signal and a line for transmitting power.

The lane violation detector may detect an invasion of a guideline of a vehicle using an infrared sensor.

The LED controller may control the LED output unit so that a white LED is turned on when the traffic signal received from the signal system module is a normal signal.

The LED controller may control the LED output unit so that a yellow LED is turned on when the traffic signal received from the signal system module is a preliminary signal.

The LED controller may control the LED output unit so that the LED is not turned on when the traffic signal received from the signal system module is a stop signal.

The LED control unit may control the LED output unit so that a red LED is turned on when the guide line invasion signal is received from the lane invasion detection unit.

The LED control unit may control the LED output unit to return to the original state after the red LED is turned on for a predetermined time when receiving the guide line invasion signal from the lane invasion detection unit.

The lane intrusion detection unit may include an infrared sensor which is directed to detect that the vehicle intrudes on the guide line.

The signal system module may include an intersection signal controller for controlling an intersection signal system, a second signal transceiver for communicating with the road marker bottle module, and a number of violations for counting the number of induction lines of the vehicle detected by the road marker bottle module. It may include a counter.

The number of violations counter may transmit the number of violations information to the intelligent transportation system when the number of intrusions is greater than or equal to a preset number.

The intelligent transportation system may include an intersection operation information database for storing the number of times of guideline intrusion of the vehicle received from the signal system module.

In the present invention, the operating method in the intersection safety system comprising a road sign bottle installed in the vehicle guideline line at the intersection and a signal system module for controlling the intersection signal system, the vehicle sign in conjunction with the intersection signal system in the road sign bottle Lighting the step, the road marking bottle checks whether the vehicle has invaded the guide line, and the road marking bottle transmits an invasion signal to the signaling system module if the vehicle has invaded the guidance line, and the signaling system module is Receiving an invasion signal and counting the number of invasion of the vehicle and the signaling system module includes transmitting the counted number of invasion of the vehicle to the intelligent transportation system.

The signal system module may be to transmit the number of violations to the intelligent transportation system when the counted number of intrusions of the vehicle is greater than or equal to a preset number.

The road marker may further include changing the color of the guide light of the guide line after the step of transmitting an invasion signal to the signal system module if the vehicle has violated the guide line.

The changing of the color of the induction lamp of the corresponding guide line may be to change the color of the induction lamp of the corresponding induction line only when the induction light is turned on with a color corresponding to the normal signal of the signal system.

The step of changing the color of the guide light of the corresponding guide line may be to change the color of the guide light of the corresponding guide line to red.

According to the present invention, by embedding a road sign bottle that emits light of various colors in conjunction with the traffic system at the intersection of traffic congestion, the effect of preventing accidents by increasing the visibility of the guide line even at night and in bad weather when drivers pass the intersection have.

In addition, by monitoring areas where violations such as guideline and lane invasion occur frequently at an intersection, it is effective to induce improvement of intersection operation system and facility inspection.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used for the same reference numerals even though they are shown in different drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a block diagram of a crossroad safety system according to an embodiment of the present invention.

Referring to FIG. 1, an intersection safety system includes a road sign bottle module 100, a signage module 200, and an intelligent transportation system 400.

The road marker bottle module 100 is installed on the vehicle guide line at the intersection and emits light so that the guide line is identified, and serves to detect the induction of the guide line of the vehicle. In the present invention, the road sign bottle module 100 emits light in association with the signal system module 200.

In FIG. 4, the road marker bottle module 100 is installed embedded in both ends of the guide line 500 and the guide line 500. In Figure 4, the road sign bottle module 100 is shown an embodiment in which the yellow LED is lit. At this time, the steering of the LED is preferably set so as to be identified only in the traveling direction of the vehicle that proceeds normally according to the signal of the intersection, and does not disturb the view of the vehicle waiting for the signal or the rear view of the vehicle that is normally progressing. In FIG. 4, two purple triangles of the road marking bottle module represent an infrared sensor, and a detailed description of the infrared sensor will be described later.

The signaling system module 200 controls the signaling system at the intersection and counts the number of guideline intrusions of the vehicle detected by the road sign bottle module 200.

The intelligent traffic system 400 collects traffic related information and analyzes and provides traffic conditions in real time, and stores the number of guideline violations of the vehicle transmitted from the signal system module 200. In the embodiment of FIG. 1, the signal system module 200 and the intelligent transportation system 400 are connected through the Internet.

In the present invention, the road sign bottle module 100 includes an LED output unit 110, an LED controller 120, a lane invasion detecting unit 130, a first signal transmitting and receiving unit 140, and an induction current collecting unit 150. Is done.

The LED output unit 110 serves to emit a light emitting diode (LED) to identify the guide line.

The LED controller 120 controls the output and color of the LED output unit 110.

In the present invention, the LED controller 120 may control the LED output unit 110 so that the white LED is turned on when the traffic signal received from the signal system module 200 is a normal signal. For example, the normal signal in the signal system module 200 may be a straight signal, a straight-left turn signal, a left turn signal, or the like.

Alternatively, the LED controller 120 may control the LED output unit 110 to light a yellow LED when the traffic signal received from the signal system module 200 is a preliminary signal. For example, the preliminary signal in the signal system module 200 may be a yellow switching or flashing signal of a straight / left / left turn signal.

Alternatively, the LED controller 120 may control the LED output unit 110 so that the LED is not turned on when the traffic signal received from the signal system module 200 is a stop signal. For example, the stop signal in the signal system module 200 may be a red switch signal of a straight / left / left turn signal.

Alternatively, the LED controller 120 may control the LED output unit 110 so that a red LED is turned on when the guide line invasion signal is received from the lane invasion detection unit 130. At this time, when the LED control unit 120 receives the guide line invasion signal from the lane invasion detection unit 130, the red LED is turned on for a predetermined time, and then control the LED output unit 110 to return to the original state again. Can be.

The lane invasion detecting unit 130 serves to detect whether the vehicle induces a guide line invasion. In one embodiment of the present invention, the lane violation detection unit 130 may detect an invasion of a guideline of a vehicle using an infrared sensor. That is, the lane invasion detecting unit 130 may include an infrared sensor which is directed to detect the invasion of the vehicle on the guide line.

Referring to FIG. 4, the lane invasion detecting unit 130 may include two infrared sensors, a first infrared sensor and a second infrared sensor, which are inclined and directed to detect a guide line invasion of the vehicle. The lane violation detection unit 130 of the road sign bottle module 100 includes two infrared sensors represented by a purple triangle, and each infrared sensor detects a lane invasion in a direction in which the triangle is directed.

The first signal transceiver 140 is used for communication with the signal system module 200.

The induction current collector 150 receives power from the signal system module 200 to generate induction current to supply power to the road marker bottle module 100. In one embodiment of the present invention, the induction current collector 150 may receive power from the signal system module 200 through the signal line 160 for transmitting a signal. In this case, the signal line 160 may include a line for transmitting an electric signal and a line for transmitting power.

In the embodiment of FIG. 1, the signal system module 200 includes an intersection signal controller 210, a second signal transceiver 220, and an invasion counter 230.

The intersection signal controller 210 controls the intersection signal system.

The second signal transceiver 220 is used to communicate with the road sign bottle module 100.

The number of invasion counter 230 serves to count the number of invasion of the guideline of the vehicle detected by the road sign bottle module 100. In the present invention, the number of invasion counter 230 may transmit the number of invasion information to the intelligent transportation system 400 through the Internet 300 when the number of invasion is more than a preset number.

In the present invention, the intelligent traffic system 400 includes an intersection operating information database (DB) 410 for storing the number of guideline intrusions of the vehicle received from the signal system module 200.

2 is a flowchart illustrating a method of operating in an intersection safety system according to an exemplary embodiment of the present invention.

The road sign bottle 100 turns on the vehicle guidance light in conjunction with the intersection signal system (S201). Then, the road sign bottle 100 checks whether the vehicle invaded the guide line (S203).

If the vehicle invaded the guide line, the road sign bottle 100 changes the color of the guide light (S205). In an embodiment of the present invention, step S205 may change the color of the induction light only when the induction light is turned on in a color corresponding to the normal signal of the signal system. For example, the color of the induction lamp may be changed to red only when the induction lamp lights up in white corresponding to the normal signal in association with the signal system.

Then, the road sign bottle 100 transmits the violation signal to the signal system module 200 (S207).

The signal system module 200 receives an invasion signal from the road sign bottle 100 and counts the number of invasion of the vehicle (S209). The signal system module 200 transmits the counted number of violations of the vehicle to the intelligent transportation system 400. At this time, the signal system module 200 may transmit the number of invasion to the intelligent transportation system 400 when the counted number of invasion of the vehicle reaches a predetermined number or more.

In FIG. 2, an embodiment in which the color of the induction light is changed when the vehicle invades the guide line is described. As another embodiment of the present invention, there is also a method in which the color of the induction light is not changed even when the vehicle invades the guide line. Another embodiment of the present invention will be described with reference to the drawings.

3 is a flowchart illustrating a method of operating in an intersection safety system according to another exemplary embodiment of the present invention.

The road sign bottle 100 turns on the vehicle guidance light in conjunction with the intersection signal system (S301). Then, the road sign bottle 100 checks whether the vehicle invaded the guide line (S303). If the vehicle invaded the guide line, the road sign bottle 100 transmits the invasion signal to the signal system module 200 (S305).

The signal system module 200 receives an invasion signal from the road sign bottle 100 to count the number of invasion of the vehicle (S307). The signal system module 200 transmits the counted number of violations of the vehicle to the intelligent transportation system 400. At this time, the signal system module 200 may transmit the number of invasion to the intelligent transportation system 400 when the counted number of invasion of the vehicle reaches a predetermined number or more.

The embodiment of FIG. 3 is preferably applied when the intersection signal of the signal system module 200 is a preliminary signal, that is, when the color of the induction lamp is yellow. This is because confusion of drivers can be prevented by not changing the color of the yellow induction lamp even when the guideline invades the vehicle.

5 to 10 are diagrams for explaining the operation of the road sign bottle at the intersection according to an embodiment of the present invention. In FIG. 5 to FIG. 10, the guide line indicated by the white dotted line shows the road sign bottle 100. In this case, it is preferable that only the road marker bottle 100 located on the left side of the vehicle traveling direction be seen so that confusion does not occur to a driver who drives a vehicle in another lane.

5 and 6 show an example in which the traveling direction of the straight lane is shifted. FIG. 5 is an embodiment of a right turn signal at a double left turn intersection of a one-way four lane road, and FIG. 6 is an embodiment of a right turn signal in the case of a single left turn lane on a one-way four lane road.

In FIG. 5 and FIG. 6, the signal system is a normal left turn normal signal, and since there are no vehicles invading the guide line, the road sign bottle 100 is displayed in white.

7 and 8 are different from the embodiments of FIGS. 5 and 6, in which straight roads are arranged in a line, and thus, road marking bottles indicating a separate straight guide line are not installed. FIG. 7 is an embodiment of a right turn signal at a double left turn intersection of a one-way four lane road, and FIG. 8 is an embodiment of a right turn signal in the case of a single left turn lane on a one-way four lane road.

In the embodiment of FIGS. 7 and 8, the road sign bottle 100 is displayed in white, as in the embodiment of FIGS. 5 and 6, since the signal system is a normal left turn signal and no vehicle invades the guide line.

9 is an embodiment of a yellow signal at the intersection of a one-way four-lane road. In the embodiment of Figure 9 it can be seen that the road sign bottle 100 is displayed is changed to yellow in conjunction with the signal system.

FIG. 10 illustrates an embodiment in which the road marker bottle 100 turns red when a guideline invades a vehicle at a double left turn intersection of a one-way four-lane road. In FIG. 10, the road sign bottle 100 turns red, thereby alerting not only the driver of the vehicle invading the guide line but also the drivers of the surrounding vehicles, thereby helping to drive safely.

While the invention has been described using some preferred embodiments, these embodiments are illustrative and not restrictive. Those skilled in the art will appreciate that various changes and modifications can be made without departing from the spirit of the invention and the scope of the rights set forth in the appended claims.

4 is a diagram illustrating a guide line and a road sign bottle according to an exemplary embodiment of the present invention.

5 to 10 are diagrams for explaining the operation of the road sign bottle at the intersection according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100 road sign 200 signage module

300 Internet 400 Intelligent Transportation Systems

110 LED Output 120 LED Control

130 Lane Violation Detection Unit 140 First Signal Transceiver

150 Induction current collector 210 intersection signal controller

220 Second Signal Transceiver 230 Violation Count Counter

410 Intersection Information DB 160 Signal Line

Claims

A road marker bottle module installed on the vehicle guide line at an intersection and emitting light to identify the guide line, and detecting a violation of the guide line of the vehicle;

A signaling system module for controlling a signaling system at an intersection and counting the number of times of guideline intrusion of the vehicle detected by the road marker bottle module; And

An intersection safety system including an intelligent traffic system that collects traffic related information and analyzes traffic conditions in real time, and stores the number of guideline violations of the vehicle transmitted from the signaling system module.

The method of claim 1,

The road sickness module is an intersection safety system, characterized in that to emit light in conjunction with the signal system of the signal system module.

The method of claim 1,

The road sign bottle module,

An LED output unit for emitting a light emitting diode (LED) to identify the guide line;

An LED controller for controlling the output and color of the LED output unit;

A lane invasion detecting unit detecting whether a vehicle induces a guide line; And

And a first signal transceiving unit for communication with the signal system module.

The method of claim 3,

And an induction current collector for supplying power to the road marking bottle module by generating an induction current by receiving power from the signal system module.

The method of claim 4, wherein

And the induction current collector receives power from the signaling system module through a signal line for transmitting a signal.

The method of claim 5,

And said signal line includes a line for transmitting an electric signal and a line for transmitting electric power.

The method of claim 3,

Wherein the lane violation detection unit intersection safety system, characterized in that for detecting the induction of the guide line of the vehicle using an infrared sensor.

The method of claim 3,

And the LED controller controls the LED output unit so that a white LED is turned on when the traffic signal received from the signal system module is a normal signal.

The method of claim 3,

And the LED controller controls the LED output unit so that a yellow LED is turned on when the traffic signal received from the signal system module is a preliminary signal.

The method of claim 3,

And the LED controller controls the LED output unit so that the LED does not light when the traffic signal received from the signal system module is a stop signal.

The method of claim 3,

Wherein the LED control section intersection safety system, characterized in that for controlling the LED output unit to turn on the red LED when receiving the guidance line intrusion signal from the lane intrusion detection unit.

The method of claim 11,

And the LED controller controls the LED output unit to return to the original state after the red LED is turned on for a predetermined time when receiving the guide line invasion signal from the lane invasion detection unit.

The method of claim 3,

Wherein the lane intrusion detection unit intersection safety system, characterized in that it comprises an infrared sensor which is directed to detect that the vehicle is invading on the guideline.

The method of claim 1,

The signal system module,

An intersection signal controller for controlling an intersection signal system;

A second signal transceiver for communicating with the road marker module; And

And a violation count counter for counting the number of violations of the guideline of the vehicle detected by the road marker bottle module.

The method of claim 14,

The number of intrusion counter, the intersection safety system, characterized in that for transmitting the number of infringement information to the intelligent transportation system when the number of infringement is more than a preset number.

The method of claim 1,

The intelligent transportation system,

And an intersection operating information database for storing the number of guideline intrusions of the vehicle received from the signaling system module.

An LED controller for controlling the output and color of the LED output unit;

A road sign bottle including a first signal transceiver for communication with the signal system module.

The method of claim 17,

The road sign bottle, characterized in that it further comprises an induction current collector for supplying power to the road sign bottle module by generating an induced current supplied from the signal system module.

The method of claim 18,

The induction current collector is road marker bottle characterized in that the power is supplied from the signal system module through a signal line for transmitting a signal.

The method of claim 19,

The signal line includes a line for transmitting an electric signal, and a line for transmitting power.

The method of claim 17,

The lane violation detection unit is a road marker bottle, characterized in that for detecting the guide line violation of the vehicle using an infrared sensor.

The method of claim 17,

The LED control unit road sign bottle, characterized in that for controlling the LED output unit so that the white LED is turned on when the traffic signal received from the signal system module is a normal signal.

The method of claim 17,

The LED control unit road sign bottle, characterized in that for controlling the LED output unit so that the yellow LED is turned on when the traffic signal received from the signal system module is a preliminary signal.

The method of claim 17,

The LED control unit road sign bottle, characterized in that for controlling the LED output unit so that the LED does not light if the traffic signal received from the signal system module is a stop signal.

The method of claim 17,

The LED control unit road sign bottle, characterized in that for controlling the LED output unit to turn on the red LED when receiving the guide line intrusion signal from the lane intrusion detection unit.

The method of claim 25,

When the LED control unit receives a guide line invasion signal from the lane invasion detection unit, the red LED is turned on for a predetermined time, after the road marker bottle characterized in that to control the LED output to return to its original state.

The method of claim 17,

A method of operating in a crossroad safety system comprising a signage module for controlling a road sign and an intersection signal system installed at a vehicle guide line at an intersection,

Lighting a vehicle guidance light in linkage with the intersection signaling system in the road marker;

Checking whether the road marker bottle has invaded a guide line;

The road marking bottle transmitting an invasion signal to the signaling system module when the vehicle invades the guide line;

Counting the number of violations of the vehicle by receiving the violation signal; And

The signaling system module is a method for operating in a crossroad safety system comprising the step of transmitting the count of the number of violations of the vehicle to the intelligent transportation system.

The method of claim 28,

And the signal system module transmits the number of violations to the intelligent transportation system when the counted number of intrusions of the vehicle reaches a predetermined number or more.

The method of claim 28,

After the road marking bottle transmits an invasion signal to the signaling system module if the vehicle invades the guide line,

And changing the color of the guide light of the guide line.

31. The method of claim 30,

The changing of the color of the induction light of the corresponding induction line may include changing the induction light color of the induction line only when the induction light is turned on in a color corresponding to the normal signal of the signal system. .

31. The method of claim 30,

And changing the color of the guide light of the corresponding guide line to change the color of the guide light of the corresponding guide line to red.