KR20120094374A

KR20120094374A - Car identity apparatus using rfid tag and parking method using the same

Info

Publication number: KR20120094374A
Application number: KR1020110013843A
Authority: KR
Inventors: 손영전
Original assignee: 손영전
Priority date: 2011-02-16
Filing date: 2011-02-16
Publication date: 2012-08-24

Abstract

An object of the present invention is to provide a vehicle recognition device using an RFID tag and a parking management method using the RFID tag to enable the parking management by identifying the vehicle using the RFID tag.
The vehicle recognition apparatus according to the present invention includes a sensor for recognizing the approach of a vehicle to recognize the approach of the vehicle, an RFID reader for reading the information stored in the RFID tag when the vehicle is activated, and information on whether parking is possible in response to the information stored in the RFID. Recognizing a vehicle approach in the stored memory and sensor activates the RFID reader and compares the information stored in the RFID tag with the information of the specific vehicle stored in the memory RFID control including a control unit for determining that the vehicle is authorized It is to provide a vehicle recognition device to be used.

Description

Vehicle identification device using RDF tag and parking management method using same {CAR IDENTITY APPARATUS USING RFID TAG AND PARKING METHOD USING THE SAME}

The present invention relates to a vehicle recognition device using an RFID tag and a parking management method using the same. More specifically, a vehicle recognition device using an RFID tag and parking using the RFID tag to determine whether the vehicle is an authorized vehicle using the RFID tag. It is about management method.

Parking lot, which is provided as a convenient facility for large buildings, is equipped with a vehicle identification device and a parking ticket issuing device at the entrance, and calculates the parking fee by calculating the time from entering the vehicle to entering the vehicle to raise the operating profit of the parking lot or permit. A parking space is secured by preventing a vehicle other than the vehicle from being parked in the parking lot. In addition, parking managers are resident to prevent illegal parking. In the case of the resident priority parking area, only designated vehicles can park.

However, installing a vehicle identification device and a parking ticketing device or resident parking managers can be expensive, so if only a small parking space is secured, such as a small building, and a resident priority parking area is a large parking lot. It is not possible to install a vehicle identification device such as a parking ticketing device. In addition, in the case of large buildings, the parking lot is located in the basement of the building, so the vehicle must enter through a specific passage to enter the parking lot. Therefore, when the vehicle identification device and the parking ticket issuing device are installed in a specific passage, the vehicle must pass through the vehicle identification device and the parking ticket issuing device in order to park. However, in the case of a small building or a resident-priority parking area, parking spaces are located in a line around the outer wall of the building or on the roadway, so there is no place to install a vehicle identification device and a parking ticketing device like a large building, so that effective parking management is possible. There is no problem.

An object of the present invention is to provide a vehicle recognition device using an RFID tag and a parking management method using the RFID tag to enable the parking management by identifying the vehicle using the RFID tag.

The first aspect of the present invention, the sensor for recognizing the approach of the vehicle to recognize the approach of the vehicle, when activated, the RFID reader to read the information stored in the RFID tag in the vehicle, the information on whether parking is possible in response to the information stored in the RFID Recognizing a vehicle approach in the stored memory and sensor activates the RFID reader and compares the information stored in the RFID tag with the information of the specific vehicle stored in the memory RFID control including a control unit for determining that the vehicle is authorized It is to provide a vehicle recognition device to be used.

In addition, the controller is connected to the display device to provide a vehicle recognition device using an RFID tag to display the comparison result on the display device.

In addition, the control unit is connected to the communication module, the display device is to provide a vehicle recognition device for receiving the comparison result through the communication module.

In addition, the communication module provides a vehicle recognition apparatus using an RFID tag for transmitting a signal through at least one of a mobile communication network, a wireless LAN, a Bluetooth, and a Zigbee.

In addition, the sensor provides a vehicle recognition device using an RFID tag which is a magnetic field proximity sensor.

In addition, the control unit is to provide a vehicle recognition device using an RFID tag further connected to the GPS signal unit.

In addition, the sensor, the RFID reader, the memory, and the control unit provide a vehicle recognition device installed on a heavy object.

In addition, the control unit is provided with a vehicle recognition device using an RFID tag that is connected to the blocking device and to operate the blocking device in response to the comparison result.

The second aspect of the present invention, the step of recognizing the approach of the vehicle and recognizing the RFID tag, grasping the information stored in the RFID tag and in response to the information stored in the RFID tag, whether the vehicle is parked It is to provide a parking management method using an RFID tag comprising the step of identifying that the vehicle is authorized and displaying the result of comparing the information of the vehicles allowed parking and the information of the vehicle stored in the RFID tag.

In addition, the step of recognizing the approach of the vehicle and recognizing the RFID tag, to provide a parking management method using the RFID tag comprising the step of activating the RFID reader when recognizing the approach of the vehicle.

In addition, the comparison result is to provide a parking management method using an RFID tag transmitted through at least one of a mobile communication network, a wireless LAN, Bluetooth, and Zigbee.

In addition, the comparison result provides a parking management method using an RFID tag displayed through at least one of a lamp and a speaker.

According to a vehicle recognition apparatus using an RFID tag and a parking management method using the same according to the present invention, when a vehicle is parked, an RFID tag attached to the vehicle can be recognized to determine whether the vehicle is an authorized vehicle, and thus a separate device is required. It is easy to determine whether or not the vehicle is permitted to park the vehicle. In addition, since an RFID reader that recognizes an RFID tag is installed on the floor of the parking lot, the vehicle may be recognized regardless of the entrance direction of the parking lot.

1 is a structural diagram showing an embodiment of a parking management system according to the present invention.
2 is a structural diagram showing an embodiment of the vehicle recognition device shown in FIG.
3 is a flow chart showing an embodiment of a method of parking management using a vehicle recognition apparatus according to the present invention.
4 is a structural diagram showing another embodiment of a parking management system according to the present invention.
5 is a structural diagram showing still another embodiment of the parking management system according to the present invention.

Hereinafter, the present invention will be described in detail so that those skilled in the art can easily understand and reproduce the present invention through these embodiments.

1 is a structural diagram showing an embodiment of a parking management system according to the present invention.

Referring to FIG. 1, the parking management system 100 recognizes that the vehicle 120 is parked in a parking lot where the parking section line 110 is drawn, and recognizes the vehicle 120 that is parked. The vehicle 120 and the display device 140 are installed.

The vehicle recognition device 130 is installed in the parking area set as the parking compartment 110 of the parking lot. At this time, the protrusion 131 is formed in the parking compartment 110 of the parking lot floor and the vehicle is fixed by the protrusion 131 to the parking compartment 110 to prevent the vehicle from being pushed by an external impact. At this time, the protrusion 131 is made of concrete or rubber and is firmly fixed to the floor of the parking lot. The vehicle recognition device 130 is embedded in the protrusion 131. However, the vehicle recognition device 130 may be formed by being embedded in the floor of the parking lot. The vehicle recognition device 130 may expose a protrusion 131 and / or a floor of the parking lot to a means for detecting the vehicle and recognizing the information of the vehicle 120 to facilitate vehicle detection and vehicle information recognition. In addition, the vehicle recognition apparatus 130 detects the vehicle and determines whether the vehicle 120 has entered the parking compartment 110. In addition, the vehicle recognition device 130 receives the information of the vehicle by recognizing the RFID tag. In addition, the vehicle recognition apparatus 130 may include information of vehicles that are permitted to park or information of a driver who is permitted to park, and compare the information of the vehicle stored in the RFID tag and / or the holder information of the RFID tag with the information of the parking permitted vehicles. The vehicle entering the parking compartment 110 to determine whether the vehicle can be parked.

The vehicle 120 having the RFID tag installed thereon reads the information stored in the RFID tag by the vehicle recognition device 130 installed at the bottom of the parking lot by installing the RFID tag on a specific area of the vehicle, for example, the vehicle 120. 120) to be able to recognize the information. In addition, when a person carrying an RFID tag rides in the vehicle 120, the vehicle recognition device 130 may read information stored in the RFID tag. In addition, the RFID tag further includes a user memory (not shown) in which the information of the vehicle 120 and / or the holder information of the RFID tag is stored to provide the vehicle information to the vehicle recognition device 130. In addition, a 32-bit password is set in the user memory, which prevents duplication and modification of RFID tags.

The display device 140 displays a result of determining whether the vehicle recognition device 130 is a vehicle that is permitted to park or is not authorized. The display device 140 includes a lamp 141 and allows the lamp 141 to emit light differently so that the display device 140 can easily recognize whether the vehicle is permitted to be parked or not. In addition, the display apparatus 140 may further include a speaker 142 to generate sound from the speaker in response to a result of determining whether the vehicle is permitted to park or is not permitted by the speaker 142. Therefore, the display device 140 can easily recognize whether the vehicle can be parked through light and sound. The position of the display device 140 may be designated according to convenience.

2 is a structural diagram showing an embodiment of the vehicle recognition device shown in FIG.

Referring to FIG. 2, the vehicle recognition device 130 includes a sensor 210, an RFID reader 220, a memory 230, a communication module 240, a GPS signal unit 250, and a controller 260.

The sensor 210 senses the vehicle 120 and does not recognize other objects or objects. In addition, the sensor 210 detects an amount of force or a gravity change, and when the vehicle recognition device 130 is shocked or a movement of the vehicle recognition device 130 is detected, damage is applied to the vehicle recognition device 130 or the vehicle recognition device. It may be determined that attempting theft of 130 is attempted. To this end, the sensor 210 includes a first sensor 210a and a second sensor 210b. The first sensor 210a may be an example of a magnetic field proximity sensor. When the metal material approaches a predetermined distance, the first sensor 210a may recognize a change in the magnetic field and detect the approach of the vehicle. The second sensor 210b may be, for example, a force sensor and / or a gravity sensor, and detects a change in force or a change in gravity due to external force. In addition, the sensor 210 allows the output signal to remain high or low when the vehicle 120 approaches.

When the output signal of the high state or the low state is transmitted from the sensor 210, the RFID reader 220 reads information stored in the user memory of the RFID tag attached to the vehicle 120 to determine the information of the vehicle.

The memory 230 stores a database of information of a plurality of RFID tags and information of vehicles registered in a parking lot. Therefore, the vehicle 120 that enters the parking lot recognized by the RFID reader 220 by comparing the vehicle information recognized through the RFID tag and the information of the parkable vehicles recorded in the memory 230 in the controller 260. It is possible to determine whether the vehicle is parked. In addition, the memory 230 stores environmental setting values of the vehicle recognition apparatus 130.

The communication module 240 allows the vehicle recognition device 130 to communicate with the outside in a wired or wireless manner to transmit information grasped by the vehicle recognition device 130 to an external device. The communication module 240 transmits to an external device via wire through a USB (Universal Serial Bus) terminal 245 and receives power from the external device. In addition, the communication module 240 is a display device 140 or an external device (not shown) through the mobile communication module 241, Bluetooth (242), Wireless LAN (243), ZigBee (244) It is possible to communicate wirelessly with. Examples of the external device include a smartphone, a computer, a tablet PC, and the like.

The GPS signal unit 250 transmits a GPS signal to continuously transmit a signal regarding a current position. Therefore, to prevent theft and location of the vehicle recognition device 130 to be tracked.

When a signal for maintaining a high or low state is input from the sensor 210, the controller 260 activates the RFID reader 220 and receives information stored in the user memory of the RFID tag attached to the vehicle. At this time, if the RFID tag is not attached to the vehicle 120, the controller 260 generates a warning signal or a warning sound in the display device 140 to recognize that the unauthorized vehicle is parked. In addition, although the RFID tag is attached to the vehicle 120, the RFID reader 220 cannot read the information stored in the user memory of the RFID tag or the RFID reader matches the information of the vehicle identified through the user memory of the RFID tag. If the vehicle information is not stored in the memory 230, the controller 260 generates a warning signal or a warning sound in the display device 140 to recognize that the illegal vehicle is parked.

3 is a flow chart showing an embodiment of a method of parking management using a vehicle recognition apparatus according to the present invention.

Referring to Figure 3, it detects the approach of the vehicle to the parking lot. (300) The vehicle is accessed by the vehicle recognition device 130, because the vehicle 120 is made of a metal vehicle recognition device 130 is a magnetic field Proximity sensors are used to recognize vehicle approach.

In operation 310, the controller 260 analyzes the signal output from the magnetic field proximity sensor to determine whether the vehicle is permitted or not. . At this time, when a signal indicating that the vehicle is approaching from the magnetic field proximity sensor is output, the controller 260 activates the RFID reader 220 and determines that the RFID tag is attached to the vehicle. Then, the information stored in the user memory of the attached RFID card is read, and the information of the vehicle stored in the user memory is compared with the information of the vehicles stored in the memory 230 of the vehicle recognition apparatus.

In addition, if the vehicle is authorized (320), the display device 140 indicates that the vehicle is authorized in the lamp 141 and / or the speaker 142, and if the vehicle is not authorized (330), the display device 140 is not authorized. The lamp 141 and / or the speaker 142 transmits a warning signal or a warning sound to indicate that the vehicle is a vehicle. Accordingly, the display apparatus 140 may be recognized to determine whether the vehicle parked is an unauthorized vehicle.

In addition, parking can be easily managed by transmitting a signal indicating whether the vehicle is parked and whether the vehicle is authorized or unauthorized through the smartphone, computer, or tablet PC of the parking manager through mobile communication network, Bluetooth, WLAN, and Zigbee. Make sure That is, the controller 260 uses the communication module 240 to signal whether the vehicle is parked, the authorized vehicle, and the unauthorized vehicle through a mobile communication network, Bluetooth, WLAN, Zigbee, etc. to a smartphone, a computer, a tablet PC, and the like. To pass.

4 is a structural diagram showing another embodiment of a parking management system according to the present invention.

Referring to FIG. 4, the parking management system 400 recognizes that the vehicle 420 is parked in the parking lot where the parking section line 410 is drawn, and recognizes the vehicle 420 that is parked. The vehicle 420 is installed.

The vehicle recognition device 430 is installed in the parking compartment 410 of the parking lot set as the occupant-first parking zone. Vehicle recognition device 430 is installed in the very heavy body portion 431 to prevent movement by the force of one or two people. The vehicle recognition device 430 is configured as shown in FIG. 2, and the sensor, the RFID reader, the memory, the controller, the GPS signal unit, and the communication module of the vehicle recognition device 430 are installed in the body 431. In addition, the vehicle recognition device 430 may expose a means for detecting the vehicle and recognizing the information of the vehicle 420 in order to facilitate the vehicle detection and vehicle information recognition. In addition, the vehicle recognition apparatus 430 detects the vehicle by the sensor and determines whether the vehicle 420 has entered the parking compartment 110. In addition, the vehicle recognition device 430 receives the information of the vehicle by recognizing the RFID tag attached to the vehicle 420 or the RFID tag possessed by the occupant on the vehicle 420. In addition, the vehicle recognition apparatus 130 may include information on the vehicles allowed to park and / or holder information of the RFID tag, and compare the information of the vehicle stored in the RFID tag and / or the holder information of the RFID tag with the information of the parked vehicles. To determine whether the vehicle is parked. In addition, the vehicle recognition device 430 further includes a display device 440 and displays a result of determining whether the vehicle is permitted to park or is not permitted. In this case, the display device 440 includes a lamp and / or a speaker and makes it easy to recognize whether the vehicle is parked or not by using light and / or sound to recognize whether the vehicle can be parked. Make it easy.

The vehicle 420 having the RFID tag installed thereon may read the information stored in the RFID tag in a vehicle recognition device installed at the bottom of the parking lot to recognize the information of the vehicle 420. The RFID tag further includes a user memory (not shown) in which the information of the vehicle and / or the holder information of the RFID tag is stored to provide the vehicle information to the vehicle recognition device 430. In addition, a 32-bit password is set in the user memory, which prevents duplication and modification of RFID tags.

5 is a structural diagram showing still another embodiment of the parking management system according to the present invention.

Referring to FIG. 5, the parking management system 500 recognizes that the vehicle 520 is parked in the parking lot where the parking section line 510 is drawn, and recognizes the vehicle 520 that is parked. And a blocking device 540 installed in the vehicle 520 and the parking compartment.

The vehicle recognition device 530 is installed in the parking compartment 510 of the parking lot set as the occupant-first parking zone. Although the vehicle recognition device 530 is shown here as shown in FIG. 1, the vehicle recognition device 530 may be installed as shown in FIG. 4. In addition, the vehicle recognition device 530 is configured as shown in FIG. In addition, the vehicle recognition device 530 detects the vehicle by the sensor and determines whether the vehicle 520 has entered the parking compartment 110. In addition, when the sensor detects the vehicle, the vehicle recognition device 530 recognizes the RFID tag attached to the vehicle 520 and receives the vehicle information. In addition, the vehicle recognition apparatus 130 includes information of vehicles that are allowed to park and compares information of the vehicle stored in the RFID tag with information of vehicles that are allowed to park to determine whether the vehicle is parked.

The blocking device 540 is installed in the parking lot, for example, on the floor of the parking compartment, and when the vehicle recognition device 530 determines that the vehicle is permitted to park, the blocking device 540 descends and the vehicle is parked in the parking compartment. When the vehicle recognition device 530 determines that the vehicle is not permitted to park, the blocking device 540 does not go down so that the vehicle 520 does not enter the parking lot. The blocking device 540 is normally raised to prevent the vehicle from parking, and when the authorized vehicle enters, the blocking device goes down so that the vehicle can park. It is possible to employ one of the methods to allow the vehicle to park because the barrier is raised upon entry.

It is to be understood that the technical spirit of the present invention has been specifically described in accordance with the preferred embodiments thereof, but it is to be understood that the above-described embodiments are intended to be illustrative and not restrictive. In addition, it will be understood by those of ordinary skill in the art that various embodiments are possible within the scope of the technical idea of the present invention.

210: sensor 220: RFID reader
230: memory 240: communication module
250: GPS signal unit 260: control unit

Claims

A sensor for recognizing the approach of the vehicle;
An RFID reader that reads information stored in an RFID tag in the vehicle when activated;
A memory storing information on whether parking is possible in response to the information stored in the RFID; And
Recognizing a vehicle approach by the sensor activates the RFID reader and a vehicle recognition device using an RFID tag comprising a control unit for determining that the licensed vehicle by comparing the information stored in the RFID tag and the information of the specific vehicle stored in the memory .

The method of claim 1,
The control unit is connected to a display device vehicle identification device using an RFID tag to display the comparison result on the display device.

The method of claim 2,
The control unit is connected to the communication module, the display device is a vehicle recognition device using an RFID tag to receive the comparison result through the communication module.

The method of claim 3,
The communication module is a vehicle recognition device using an RFID tag for transmitting a signal through at least one of a mobile communication network, wireless LAN, Bluetooth, Zigbee.

The method of claim 1,
The sensor is a vehicle recognition device using a RFID tag that includes at least one of a magnetic field proximity sensor, a force sensor, a gravity sensor.

The method of claim 1,
The control unit is a vehicle recognition device using an RFID tag further connected to the GPS signal unit.

The method of claim 1,
The sensor, the RFID reader, the memory, the control unit is a vehicle recognition device installed on a heavy object.

The method of claim 1,
The control unit is connected to the blocking device and vehicle identification device using an RFID tag to operate the blocking device in response to the comparison result.

Recognizing an approach of a vehicle and recognizing an RFID tag;
Identifying information stored in the RFID tag and identifying whether the vehicle is a vehicle permitted to park using information on whether parking is possible in response to the information stored in the RFID tag; And
And displaying a result of comparing the information of the vehicles allowed to park with the information of the vehicle stored in the RFID tag.

10. The method of claim 9,
Recognizing the approach of the vehicle and recognizing the RFID tag, The parking management method using the RFID tag comprising the step of activating the RFID reader when the approach of the vehicle is recognized.

10. The method of claim 9,
The comparison result is a parking management method using an RFID tag transmitted through at least one of a mobile communication network, wireless LAN, Bluetooth, Zigbee.

10. The method of claim 9,
The comparison result is a parking management method using an RFID tag displayed through at least one of a lamp and a speaker.