KR20060020425A - System and method for managing rotary traffic using radio frequency identification - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to a rotary traffic management system and method using radio recognition.

2. The technical problem to be solved by the invention

The present invention, by detecting the vehicle circulating the rotary at regular intervals by using radio frequency identification (RFID: Radio Frequency IDentification) is prohibited from entering the rotary of other vehicles, if it is detected that the vehicles are communicating smoothly The purpose of the present invention is to provide a rotary traffic management system using radio recognition and a method for smoothly communicating vehicles circulating the roundabout by allowing other vehicles to enter the roundabout.

3. Summary of Solution to Invention

The present invention provides a rotary traffic management system using radio recognition, comprising: RFID reading means for obtaining vehicle information from a radio frequency identification (RFID) tag in a rotary area; Traffic situation determination means for determining a traffic situation of a roundabout using the vehicle information acquired by the RFID reading means; Traffic light control means for controlling a traffic light in accordance with the determination result in the traffic situation determination means; And display means for displaying a propagation signal or a non-progression signal according to the control of the traffic light control means.                 

4. Important uses of the invention

The present invention is used in traffic management systems and the like.

RFID, RFID Tag, Traffic, Congestion, Rotary Traffic Management, Vehicle Information, Percentage

Description

Rotary traffic management system using radio recognition and its method {System and method for managing rotary traffic using Radio Frequency IDentification}             

1 is a diagram illustrating an embodiment of a rotary to which the present invention is applied;

2 is a configuration diagram of an embodiment of a rotary traffic management system using wireless recognition according to the present invention;

3 is a flowchart illustrating a rotary traffic management method using wireless recognition according to the present invention.

* Explanation of symbols for the main parts of the drawings

11: RFID Tag 12: RFID Reader

13: traffic management device 14: traffic light control device

15: traffic light

The present invention relates to a rotary traffic management system using radio recognition and a method thereof, and more particularly, to detect that vehicles are congested by detecting vehicles circulating a roundabout at regular intervals using radio frequency identification (RFID). In the rotary traffic management system and method using wireless recognition to prohibit other vehicles to enter the rotary, and if the vehicles are detected to communicate smoothly, allowing other vehicles to enter the rotary to smoothly communicate the vehicles circulating the rotary. It is about.

Rotary in the present invention means a traffic circle (Traffic Circle).

Ubiquitous computing is a paradigm shift in which the subject of computing changes from man to everything, including people and things. In addition, the term "ubiquitous" (Ubiquitous) can be seen simply as an extension and expansion of the computing environment in the sense of computers that exist anytime, anywhere, that is, interconnected and ubiquitous.

However, ubiquitous spaces (environments, things, machines, plants, animals, humans, etc.) are planted with ubiquitous chips, which have computing and communication capabilities, and networked together to form ubiquitous spaces (environments). The ubiquitous computing concept of creating more than just expands a simple computing environment. In other words, the creation of a new space (environment).

Ubiquitous computing environments will provide a variety of applications, and will become part of our lives. In other words, the future Information Technology (IT) environment will become a ubiquitous environment.

The characteristics of this ubiquitous environment are transforming the traditional Information & Telecommunications Technology (ITT) business system, forming a ubiquitous economy based on the ubiquitous business that takes the current knowledge economy to a new level.

Thus, the ubiquitous new economy is characterized by the creation of new values and goods by grafting and fusion of technology, business and industry. In other words, based on ubiquitous computing, devices and systems that make up business processes such as things, goods, corporate production, logistics, sales, customer management, etc. of everyday life are all intelligent and connected to the network, creating a wide variety of new businesses. Will emerge.

Therefore, ubiquitous business can be applied innovatively to almost all business activities such as general business management, supply chain management, customer management, asset management, field personnel management, knowledge management, distribution management, safety management, etc. And products will lead the future IT market.

At the core of all these ubiquitous computing revolutions is radio frequency identification (RFID) technology.

In general, an RFID system is a system that processes information by identifying a thin flat tag attached to an object in a non-contact manner using a wireless signal, and has a radio frequency (RF) reader that reads and decodes a function. And RF tags, operating software, and networks that provide information.                         

In addition, the RFID system may be divided into an inductively wave method and an electromagnetic wave method according to a wireless access method. The mutual induction method refers to a method of wirelessly connecting using a coil antenna for short distances (within 1 m), and the electromagnetic wave method refers to a method of wirelessly connecting using a high frequency antenna for medium to long distances.

In more detail, the mutually inductive tag is almost passive, and receives all the energy needed from the reader to operate the tag's integrated circuit (IC) chip. That is, the antenna coil of the reader generates a strong magnetic field in the surrounding area, and a part of the emitted magnetic field generates an inductive voltage in the coil antenna of the tag away from the reader. The tag rectifies this inductive voltage and uses it as the energy of the IC chip.

In addition, the electromagnetic wave tag does not receive sufficient power from the reader to drive the IC chip, and thus may include an additional battery for long-range recognition. Such a tag is called an active tag.

RFID applications include anti-theft protection in shopping centers, safety systems such as talking drugs for the blind, anti-counterfeiting devices, animal tracking devices, car safety devices, personal access and access authorization devices, automatic toll collection systems, production management, and transportation. Container cargo tracking systems are available, and some industrial sites already use RFID.

The present invention is to propose a rotary traffic management system and a rotary traffic management method using radio recognition that can eliminate congestion occurring on the rotary by using such RFID.

On the other hand, looking at the conventional rotary traffic management method, conventionally, the traffic at the rotary was not particularly managed. The reason is that the rotary is constructed to allow vehicles flowing in each direction at the point where the multiple lanes merge to cycle through the rotary without the control of traffic lights and proceed to the desired lane. At this time, considering the inefficiency of traffic lights that sequentially control signals at regular intervals regardless of the number of vehicles traveling in each direction at the intersection, the efficiency of the rotary will be easily recognized.

However, despite the fact that many vehicles exceeding the capacity of the roundabout are entangled between the vehicles entering the roundabout due to the rotary entry or bad weather conditions (snow and rain), the continuous roundabout entry of the vehicles results in traffic conditions of the roundabout. It causes the problem of getting worse.

The present invention has been proposed to solve the above problems, by detecting radio cycle identification (RFID: Radio Frequency IDentification) at a certain cycle to detect the vehicles circulating the rotary prohibits the entry of other vehicles to the rotary It is an object of the present invention to provide a rotary traffic management system using radio recognition and a method for smoothly communicating vehicles circulating the rotary by allowing other vehicles to enter the rotary when the vehicles are detected to communicate smoothly.                         

Other objects and advantages of the present invention can be understood by the following description, and will be more clearly understood by the embodiments of the present invention. In addition, it will be readily appreciated that the objects and advantages of the present invention may be realized by the means and combinations thereof indicated in the claims.

According to an aspect of the present invention, there is provided a rotary traffic management system using radio recognition, comprising: RFID reading means for obtaining vehicle information from an RFID (Radio Frequency IDentification) tag in a rotary area; Traffic situation determination means for determining a traffic situation of a roundabout using the vehicle information acquired by the RFID reading means; Traffic light control means for controlling a traffic light in accordance with the determination result in the traffic situation determination means; And display means for displaying a propagation signal or a propagation impossibility signal according to the control of the traffic light control means.

On the other hand, the method of the present invention, in a rotary traffic management method using a wireless recognition, the RFID reader receiving a scan message from the traffic management device to search for the RFID tag in the rotary area RFID tag search step; A first vehicle information transmitting step of transmitting, by the RFID reader, the vehicle information acquired from the RFID tag to the traffic management device; A rescan message transmitting step of transmitting, by the traffic management device, the rescan message to the RFID reader after a predetermined time elapses; A second RFID tag searching step of searching for the RFID tag in the rotary area by the RFID reader receiving the rescan message from the traffic management apparatus; A second vehicle information transmitting step of transmitting, by the RFID reader, the vehicle information obtained from the RFID tag to the traffic management device as the RFID tag is searched for; A traffic situation determination step of determining, by the traffic management device, a traffic situation at a roundabout using the first vehicle information and the second vehicle information; And a traffic light control step of controlling the traffic light by the traffic light control device according to the determination result of the traffic management apparatus.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, whereby those skilled in the art may easily implement the technical idea of the present invention. There will be. In addition, in describing the present invention, when it is determined that the detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description thereof will be omitted. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an embodiment of a rotary to which the present invention is applied.

As shown in FIG. 1, the rotary to which the present invention is applied is located at a point where four-way reciprocating one-lane roads meet. At this time, at each end of the road proceeding in the direction of the roundabout to enter or prohibit the vehicle entering the roundabout under the control of the traffic light control device 14, that is, an entry permission signal (for example, blue light) or There is a traffic light 15 for displaying an entrance inhibiting signal (eg red light).                     

In addition, the vehicles are provided with an RFID tag 11. At this time, the RFID tag 11 stores vehicle information.

In addition, using the RFID reader 12 for acquiring the vehicle information from the RFID tag 11 provided by the vehicles in the rotary area, the vehicle information obtained from the RFID reader 12 to determine the congestion and smooth communication of the vehicles The traffic light control device 13 and the traffic light control device 14 for controlling the traffic light 15 according to the determination result of the traffic management device 13 are located in the center portion of the rotary (portion where the vehicle cannot enter). It is desirable to. In particular, although the RFID reader 12 is preferably located at the center of the rotary and has a circular sensing area, the RFID reader 12 may cover the rotary area on the gantry-shaped structure located at the rotary where the vehicle is circulated.

In addition, the traffic management device 13 is controlled by a traffic management center (not shown in the drawing) that collectively manages a plurality of traffic management devices 13 and the traffic lights control device 14 to the traffic jam control device 14 You can also pass information.

2 is a configuration diagram of an embodiment of a rotary traffic management system using wireless recognition according to the present invention.

As shown in FIG. 2, a rotary traffic management system using wireless recognition according to the present invention includes an RFID tag 11 storing vehicle information (eg, a vehicle identification number), and the RFID in a rotary area. RFID reader 12 for acquiring vehicle information from tag 11, traffic management device 13 for determining congestion and smooth communication of vehicles using vehicle information acquired from RFID reader 12, A traffic light control device 14 for controlling the traffic light 15 according to the determination result of the traffic management device 13 and an entry signal (for example, lit blue) or entry under the control of the traffic light control device 14. And a traffic light 15 for displaying a disable signal (eg, lit red).

Looking at each of the components in more detail, the RFID reader 12 processes the interface with the RFID receiver 21 and the traffic management device 13 for receiving vehicle information from the RFID tag 11 And a connection unit 22 for transmitting vehicle information obtained from the RFID tag 11 to the traffic management device 13 by the RFID receiver 21 according to a scan command (message) from the traffic management device 13. ).

In addition, the traffic light control device 14 processes the interface between the traffic management device 13 and the traffic light 15, and receives the traffic status information (congestion or smooth communication) from the traffic management device 13, the traffic light control unit And a connection part 27 for transmitting a no-access signal or an accessible signal to the traffic light 15 under the control of the traffic light control part 28, and the traffic management device through the connection part 27. And a traffic light control unit 28 for controlling the traffic light 15 to display a traffic signal corresponding to the traffic condition information (entering possible signal, no entry signal) in response to the traffic condition information being transmitted from (13). .

In addition, the traffic management device 13 is connected to the communication unit 23 and the data storage unit 25 for transmitting the traffic situation (congestion or smooth communication) determined by the control unit 26 to the traffic light control device 14. An input unit 24 for inputting determination information (for example, the number of vehicles staying in a rotary for a predetermined time), a data storage unit 25 storing traffic state determination information received through the input unit 24, and The traffic conditions of the roundabout are controlled by using the traffic state determination information stored in the data storage unit 25 for controlling the respective components and the vehicle information transmitted from the RFID reader 12 through the communication unit 23. The control unit 26 for determining the.

Here, the traffic situation determination process by the control unit 26 will be described in more detail.

First, the controller 26 transmits a rotary scan command (message) to the RFID reader 12 to obtain vehicle information circulating the rotary from the RFID reader 12 to detect the number of vehicles.

After a predetermined time elapses, vehicle information circulating through the rotary is reacquired from the RFID reader 12 to detect the number of vehicles. Here, the predetermined time means an average time taken for vehicles entering the roundabout to leave the roundabout without congestion. Therefore, the time varies depending on the radius, width and number of entry / exit paths of the rotary.

Then, the percentage of vehicles remaining in the roundabout even after a certain time has elapsed.

Then, it compares with the traffic situation determination information stored in the data storage unit 25, that is, the percentage of the vehicle that can exit the roundabout within a predetermined time (reference percentage), and if it exceeds, it is determined that the communication is smooth, and the reference percentage If it does not exceed, it is considered stagnant.

To illustrate, for example, 50 vehicles circulating the first roundabout were detected, and after a period of time, the vehicle circulating the roundabout was redetected, resulting in 40 cars initially detected and 10 newly detected cars. Suppose it was.

At this time, ten vehicles exited the roundabout for a certain period of time. In terms of percentages, it can be seen that 20% of the first detected vehicle exited the roundabout and 80% remained the same.

At this time, assuming that the vehicles are smoothly communicating in the roundabout when the percentage (reference percentage) of the vehicles leaving the roundabout for a predetermined time is 30%, the result indicates that congestion has occurred in the roundabout. In this case, the traffic management device 13 informs the traffic light control device 14 that the rotary is currently in a congested state. That is, it sends a congestion message.

The traffic light control device 14 then controls the traffic light 15 to prohibit entry of the vehicle.

On the other hand, if there are 20 vehicles exiting the roundabout for a period of time, the percentage of vehicles remaining in the roundabout is 60% and the percentage of vehicles leaving the roundabout is 40%.

At this time, if the traffic situation determination information (more than 30% communication smoothly) is applied, it can be seen that the communication smoothly (vehicles circulating roundabout smoothly communicate).

On the other hand, when detecting a vehicle circulating the third round after a certain time elapses, the comparison target vehicle for determining the traffic situation is the second detected vehicle (first detected vehicle 40 + newly detected vehicle 10). = Vehicles to be compared 50).

3 is a flowchart illustrating a rotary traffic management method using wireless recognition according to the present invention.

First, the traffic management device 13 transmits a scan message (command) to the RFID reader 12 (301).

Thereafter, the RFID reader 12 receiving the scan message from the traffic management device 13 searches (scans) an RFID tag included in vehicles in the rotary area (302).

Thereafter, the RFID reader 12 receives vehicle information (eg, vehicle ID) from the found RFID tag 11 and transmits the vehicle information to the traffic management apparatus 13 (303 and 304). Then, the traffic management device 13 checks the number of vehicles circulating the roundabout using the vehicle information received from the RFID reader 12.

The traffic management device 13 transmits the rescan message to the RFID reader 12 after waiting a predetermined time (305, 306). Here, the predetermined time means an average time taken for vehicles entering the roundabout to exit the roundabout. Thus, the time varies depending on the radius, width and entry / exit path of the rotary.

Then, the RFID reader 12 searches for RFID tags provided by the vehicles in the rotary area to obtain vehicle information (307 and 308).

Thereafter, the RFID reader 12 transmits the obtained vehicle information to the traffic management device 13 (309).                     

Then, the traffic management device 13 determines the traffic situation of the roundabout using the vehicle information acquired in two searches (310).

As a result of the determination 310, when it is determined that the traffic situation in the roundabout is congested, the traffic light control device 14 transmits the congestion message (311).

Then, the traffic light control device 14 controls the traffic lights to display a non-entry signal (for example, a red light) (312 and 313).

On the other hand, if it is determined that the traffic situation in the roundabout 310 is a smooth communication, the determination result 310 transmits a smooth communication message to the traffic light control device 14 (314).

Then, the traffic light control device 14 controls the traffic lights to display the entry permission signal (eg, blue light) (315, 316).

The present invention described above is capable of various substitutions, modifications, and changes without departing from the technical spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

As described above, the present invention detects vehicles circulating the rotary at regular intervals using radio frequency identification (RFID) and prohibits the entry of other vehicles to the roundabouts when the vehicles are detected to be congested. If it is detected that by allowing other vehicles to enter the rotary, there is an effect that can smoothly communicate the vehicles circulating the roundabout.

Claims (5)

In a rotary traffic management system using radio recognition, RFID reading means for acquiring vehicle information from a Radio Frequency IDentification (RFID) tag in a rotary area; Traffic situation determination means for determining a traffic situation of a roundabout using the vehicle information acquired by the RFID reading means; Traffic light control means for controlling a traffic light in accordance with the determination result in the traffic situation determination means; And Display means for displaying a propagation signal or an impossibility signal according to the control of the traffic light control means Rotary traffic management system using a wireless recognition including a. The method of claim 1, The traffic situation determination means, Data storage means for storing traffic situation determination information; Input means for inputting traffic condition determination information to the data storage means; Communication means for transmitting a scan message to the RFID reading means, receiving vehicle information from the RFID reading means, and transmitting traffic state information determined by the control means to the traffic light control means under control of a control means; And The control for controlling the respective components and determining the traffic situation of the rotary by using the traffic condition determination information stored in the data storage means with respect to the vehicle information transmitted from the RFID reading means through the communication means; Way Rotary traffic management system using a wireless recognition including a. In the rotary traffic management method using radio recognition, A first RFID tag searching step of the RFID reader receiving the scan message from the traffic management apparatus searching for the RFID tag in the rotary area; A first vehicle information transmitting step of transmitting, by the RFID reader, the vehicle information acquired from the RFID tag to the traffic management device; A rescan message transmitting step of transmitting, by the traffic management device, the rescan message to the RFID reader after a predetermined time elapses; A second RFID tag searching step of searching for the RFID tag in the rotary area by the RFID reader receiving the rescan message from the traffic management apparatus; A second vehicle information transmitting step of transmitting, by the RFID reader, the vehicle information obtained from the RFID tag to the traffic management device as the RFID tag is searched for; A traffic situation determination step of determining, by the traffic management device, a traffic situation at a rotary by using the first vehicle information and the second vehicle information; And A traffic light control step of controlling the traffic light by the traffic light control device according to the determination result of the traffic management device; Rotary traffic management method using a wireless recognition comprising a. The method of claim 3, wherein The traffic situation determination step, A percentage calculation step of calculating a percentage of vehicles that have exited the roundabout after a predetermined time has elapsed using the first vehicle information and the second vehicle information; A comparison step of comparing with a reference percentage stored in the storage; A first traffic situation determination step of judging the traffic situation at the roundabout as a result of the comparison as a result of the comparison; And As a result of the comparison, the second traffic situation determination step of judging the traffic situation at the roundabout as not exceeding the reference percentage Rotary traffic management method using a wireless recognition comprising a. The method according to claim 3 or 4, The predetermined time is, The average time taken for the vehicles entering the roundabout to leave the roundabout without congestion, the rotary traffic management method using a wireless recognition, characterized in that it depends on the radius, width and number of entry / exit of the roundabout.

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