KR20060005827A - Rfid system for locating and tracking a moving object and communication method of between rf tag and reader - Google Patents

Abstract

The present invention relates to an RFID system for recognizing an object's position and tracking a movement trajectory, and in particular, changes a channel according to an input of an external signal among a plurality of channels for communication with a reader or a host computer to communicate with the reader or the host computer. The present invention relates to an RFID system including an RF tag and a communication method between an RF tag and a reader.

The present invention is to solve the above problems, to receive an external trigger signal to communicate by using a specific channel for the RF tag located in a specific area of the plurality of RF tags communicating with the reader. An object of the present invention is to provide an RFID system having an input means in an RF tag and a communication method between an RF tag and a reader. That is, the present invention provides an RFID system and a communication method between the RF tag and the reader that enable precise location tracking for an RF tag located in a specific area and receiving an external triggering signal and communicating with the reader through a specific channel.

RF Tag, Movement, Triggering, Display, Buzzer

Description

RF ID System for Recognizing and Tracking the Position of Moving Object and Communication Method between RFID Tag and Reader {RFID SYSTEM FOR LOCATING AND TRACKING A MOVING OBJECT AND COMMUNICATION METHOD OF BETWEEN RF TAG AND READER}

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

2 is a block diagram showing the configuration of an RF tag according to an embodiment of the present invention.

3 is a flowchart illustrating operations of an RF tag according to an embodiment of the present invention.

4 is an operation flowchart of a reader according to an embodiment of the present invention.

5 is a flowchart illustrating an operation in a secure area of an RF tag according to an embodiment of the present invention.

6 is a flow chart for explaining the operation according to the motion state of the RF tag according to an embodiment of the present invention

7 is a block diagram of an RFID system according to another embodiment of the present invention.

8 is an operation flowchart of a host computer according to another embodiment of the present invention.

<Short description of symbols>

100 RF Tag 200 Reader

300 host computer

The present invention relates to an RFID system for recognizing an object's position and tracking a movement trajectory, and in particular, changes a channel according to an input of an external signal among a plurality of channels for communication with a reader or a host computer to communicate with the reader or the host computer. The present invention relates to an RFID system including an RF tag and a communication method between an RF tag and a reader. In addition, the RF tag detects a movement state of an object worn or attached, and transmits the movement state of the detected object to the host computer, so that the host computer can determine the movement state of the object. The present invention relates to an RFID system for positioning and tracking a moving object and a communication method between an RF tag and a reader.

The RFID system receives information stored in an RF tag through a reader so that the host computer recognizes and analyzes the information and acquires unique information of the article or person equipped with the RF tag. Such RFID system is used in many applications such as personal identification and object tracking. For example, in the case of a supermarket, if an RF tag containing unique information is attached to a sale item, the host computer can automatically determine the number of items remaining on the shelf using the information received through the RF tag. . In addition, in calculating the price of the article, the price information recorded in the RF tag is wirelessly provided without calculating the price of the article one by one.

When an RFID system is used to manage employees or visitors in the premises, it is used to track the location and movement path of a plurality of people wearing tags and to control access to unauthorized areas of the premises. In order to track the position and movement trajectory of the wearer of the RF tag, a technique for controlling communication between the plurality of RF tags and the reader is used. Such technologies include time division multiple access (TDMA), frequency division multiple access (FDMA), and code division multiple access (CDMA).

In the RFID system that controls the communication between the plurality of RF tags and the reader as described above, when signals are simultaneously transmitted from the plurality of RF tags to the reader, a collision or an overload occurs in the reader that receives the signal, thereby preventing There is a problem in that it is not possible to accurately recognize the transmitted data or signal. In particular, in the management of persons in specific areas with high security level in the premises or tracking the location of goods with high asset value, the above problems may lower the reliability of the RFID system.

In addition, conventional RFID systems can distinguish when a person wearing an RF tag is moving within a limited range, when the RF tag is worn away from the top, or intentionally broken or removed from the body to avoid location tracking. It is not possible to provide a signal to the reader, which reduces the reliability of location tracking.

In addition, the RF tag of the conventional RFID system does not have a function of controlling the consumption of the battery by adjusting the period and intensity of the signal to communicate with the reader according to the state of the object as described above.

 The present invention is to solve the above problems, to receive an external trigger signal to communicate by using a specific channel for the RF tag located in a specific area of the plurality of RF tags communicating with the reader. An object of the present invention is to provide an RFID system having an input means in an RF tag and a communication method between an RF tag and a reader. That is, the present invention provides an RFID system and a communication method between the RF tag and the reader that enable precise location tracking for an RF tag located in a specific area and receiving an external triggering signal and communicating with the reader through a specific channel.

In addition, the present invention is to provide a RFID system having a motion state detection sensor in the RF tag to detect the movement state of the object wearing or attaching the RF tag to transmit to the host computer to increase the reliability of the position tracking. It is for the second purpose. That is, the host computer receives and analyzes the movement state of the person wearing the RF tag through the reader, and provides an RFID system that can increase the reliability of location tracking. In addition, by providing an RF tag having a display means such as a lamp or an LCD to provide an RFID system provided with a display means on the RF tag to display the above contents when entering and exiting a controlled area as a result of location tracking.

Another object of the present invention is to provide an RFID system capable of controlling the signal period and strength of an RF tag communicating with a reader according to a motion state of a motion sensor. According to the RFID system according to the present invention, the period and intensity of communication with the reader are adjusted according to the movement state of the person wearing the RF tag, so that the battery consumption can be saved for a long time.

In order to achieve the above object, an RFID system for recognizing and tracking a moving object of the present invention includes an RF tag periodically transmitting information through a plurality of communication channels and information periodically transmitted from the RF tag. An RFID system comprising a plurality of readers that receive and transmit the received ID signal to the host computer, and a host computer that receives the ID signal of the RF tag from the reader and calculates the position of the RF tag. And a triggering device installed to output a triggering signal, wherein the RF tag further includes input means for receiving a triggering signal of the triggering device, and the RF tag includes a channel other than a specific channel among the plurality of channels. If a triggering signal is input through the input means during communication, Characterized in that when a triggering signal through the input means input through a particular channel and to the reader and communication, while the communication with the reader to the particular channel through a channel other than the specific channel to communicate with the reader.

Further, in the RFID system for location recognition and tracking of a moving object of the present invention, the triggering signal includes ID information of the zone in which the triggering device is installed, and the RF tag is located in a zone where the tag is not allowed. Notification means for informing, and a memory storing unique ID information is further included, wherein the host computer further comprises a storage means for storing information about the area authorized to access the RF tag, the RF tag is the triggering device Receives a triggering signal from the controller, and transmits zone information included in the triggering signal and ID information of a memory to the host computer through a reader, and the host computer transmits zone information and ID information transmitted from the RF tag from the reader. The RF tag is received by comparing the information of the authorized area of the storage means. If the ID information is ID information that is not authorized in the zone of the zone information, an alarm signal is transmitted to the RF tag through the reader, and the notification means of the RF tag receives an alarm signal from the reader in an area where the tag is not allowed. Characterized in that the location is known.

In addition, in the RFID system for recognizing and tracking the position of a moving object of the present invention, the RF tag further includes a motion sensor for detecting a motion, the RF tag is a reader receiving the detection value of the motion sensor The host computer receives the detected value of the motion sensor of the RF tag from the reader, and if the output of the motion sensor is less than or equal to a certain value for a predetermined time, a signal not attached to the RF tag. And the RF tag is characterized in that for generating an alarm by transmitting the tag non-attachment signal to the notification means.

In addition, in the RFID system for recognizing and tracking the position of a moving object of the present invention, the storage means of the host computer further includes information on the period and intensity of communication between the reader and the RF tag according to the output of the motion sensor of the RF tag. The host computer receives the output of the motion detection sensor of the RF tag, and outputs a control signal to the RF tag to communicate with the reader in accordance with the communication period and strength information corresponding to the input output, the RF tag Receives the control signal is characterized in that for controlling the communication cycle and strength with the reader.

In addition, in the RFID system for the location recognition and tracking of the moving object of the present invention, the host computer receives the output of the motion sensor of the RF tag, the output of the motion sensor is more than a certain value and the RF tag is triggered If the user is located in a zone where access is not authorized without receiving a signal, an alarm message is output, and a signal for controlling the communication cycle and strength of the RF tag located in the zone where access is not authorized is received and transmitted. It is done.

In addition, the triggering signal of the triggering device in the RFID system for location recognition and tracking of a moving object of the present invention is characterized in that the infrared signal, the input means of the RF tag is an infrared sensor.

In addition, in the RFID system for location recognition and tracking of the moving object of the present invention, the motion sensor of the RF tag is characterized in that the acceleration sensor.

Meanwhile, the RFID system for recognizing and tracking a moving object of the present invention receives an RF tag periodically transmitting information through a plurality of communication channels and information periodically transmitted from the RF tag to a host computer. In a RFID system comprising a plurality of readers to be transmitted and a host computer receiving the RF tag information from the reader to calculate the position of the RF tag, the host computer is a trigger signal to the RF tag by an external input signal Is output through a reader, and the RF tag communicates with the reader through the specific channel when a triggering signal is input from the host computer through the reader during communication through a channel other than a specific channel among the plurality of channels, From the host computer during communication with the reader on the particular channel. That when the trigger signal input through the further through a channel other than the specific channel to the reader and communication is characterized.

In the RFID system for location recognition and tracking of a moving object of the present invention, when the triggering signal is input from the host computer through a reader, the RF tag communicates with the reader at a predetermined communication period and strength. .

In addition, in the RFID system for the location recognition and tracking of the moving object of the present invention, the RF tag further comprises a motion sensor for detecting the movement, and a notification means for notifying the outside, the host computer through the reader Receiving the output of the motion detection sensor of the RF tag, if the output of the motion sensor is less than a certain value for a predetermined time and transmits a non-tag signal to the RF tag, the notification means of the RF tag to the non-tag signal It is characterized by receiving an alarm.

In addition, in the RFID system for the location recognition and tracking of the moving object of the present invention, the host computer receives the output of the motion sensor of the RF tag, the output of the motion sensor is more than a certain value and the RF tag is triggered If the user is located in a zone where access is not authorized without receiving a signal, an alarm message is output, and a signal for controlling the communication cycle and strength of the RF tag located in the zone where the access is not authorized is received and transmitted. It is done.

On the other hand, the communication method between the RF tag and the reader of the present invention is a communication method between the RF tag and the reader to communicate through a plurality of channels, the RF tag and the reader communicates through a channel other than a specific channel of a plurality of channels And when the RF tag receives a first triggering signal from an external triggering device, the RF tag and the reader communicate through the specific channel, and the RF tag receives a second triggering signal from an external triggering device. Upon receiving the input, the RF tag and the reader may include communicating through a channel other than a specific channel among the plurality of channels.

Hereinafter, an embodiment of a communication method between an RFID system and an RF tag and a reader for location recognition and tracking of an object of the present invention will be described with reference to the accompanying drawings.

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

An RFID system according to an embodiment of the present invention includes a reader 200 having a plurality of RF tags 100 and a plurality of antennas 210 and an RF module 220 for communicating with the plurality of RF tags 100. And a host computer 300 which communicates with the RF tag 100 through the reader 200 to output a control signal to the RF tag 100, stores information of the RF tag 100, and notifies the administrator. It includes.

2 is a block diagram showing the configuration of an RF tag according to an embodiment of the present invention.

The RF tag 100 displays the fact that the connector 40 for electrically connecting to the memory built in the ID card (not shown), the speaker 82 for emitting an alarm sound, and the entrance and exit of the prohibited area. A plurality of LEDs 81 are provided, and one side is provided with an input / output port 50 such as a USB port for connection with an external device. That is, the speaker 82 and the LED 81 correspond to the notification means of the present invention.

The RF tag 100 according to the present embodiment includes a power supply unit 91, a control unit 60, and an RF module 12 and an antenna 11 for wireless communication with the reader 200 under the control of the control unit 60. Is installed. In addition, the input means 22 for receiving a triggering signal from an infrared radiator (not shown) installed outside, the motion detection means 21 for detecting the movement of the RF tag 100, and the ID information of the tag itself And storage means (70) for storing information on security zones that are allowed access to the ID information and preset state information according to the degree of movement of the tag (100), that is, a walking state, a running state, a meeting state, and the like. And a low voltage monitoring unit 92 which senses the power level of the power supply unit 91 and outputs a signal when the power supply level is lower than the set level.

The controller 60 controls communication with the reader 200 through a plurality of communication channels, and when a triggering detection signal is input from the input means 22, the reader 200 through a specific communication channel among the plurality of communication channels. Outputs a control signal to the RF module 12 so as to communicate with the control unit, and a triggering detection signal is input from the input unit 22 during communication with the reader 200 through the specific communication channel. A control signal is output to the RF module 12 to communicate with the reader 200 through a channel. In addition, when the movement degree is not detected from the movement sensor 21 within a predetermined time, the display unit 81 and the reader 200 output a preset display signal and a control signal.

In addition, the RF tag 100 of the present embodiment is provided with an emergency notification button 30 that is operated by a user, the control unit 60 is the reader 200 when the operation signal is input from the emergency notification button 30 The host computer 300 transmits a signal informing of an emergency situation.

The host computer 300 communicates the communication means 320 for communicating with the reader 200 and the ID information and status information of the RF tag 100 input from the reader 200 through the communication means 320. The control unit 310 receives the input, stores it in the storage means 330, calculates the position of the RF tag 100, and outputs a control signal to the RF tag 100 according to a user's manipulation.

In this embodiment, the communication method between the RF module 12 and the reader 200 is a frequency modulation bidirectional communication method, and communicates using a channel partitioned into a plurality of frequencies in a predetermined range. In the present embodiment, the input means 22 is an infrared sensor 21 for detecting an infrared triggering signal from the outside, for example, but is not limited thereto, and the input means 21 may vary depending on the type of external triggering signal. It may be implemented in an embodiment. For example, if the triggering signal is a low frequency signal or a high frequency signal or a magnetic field signal in the UHF band, the input means 22 is a sensing means for sensing the respective signals. In addition, the triggering signal may be output from a host computer. Therefore, the controller 60 may receive the triggering signal of the host computer 300 through the reader 200, change the communication signal to a specific communication channel, and communicate with the reader 200. In addition, when a triggering signal is input from the host computer 300, the RF tag 100 may communicate with the reader 200 at a preset communication period and strength.

In addition, the input / output port 50 in the present embodiment is a USB (Universal Serial Bus) port, but is not limited thereto, and can be implemented in various embodiments such as an IEEE 1394 port. The display unit 81 is an LCD panel that displays a plurality of LEDs or letters and icons that emit light of various colors according to the display signal of the controller 60.

The RF tag 100 as described above periodically transmits the ID information recorded in the memory 70 to the reader 200 through the antenna 11 and the RF module 12, and the reader 200 transmits the ID information to the host computer. The host computer 300 calculates and recognizes the position of the RF tag 100.

3 is an operation flowchart of an RF tag according to an embodiment of the present invention, FIG. 4 is an operation flowchart of a reader according to an embodiment of the present invention, and FIG. 5 is a security of an RF tag according to an embodiment of the present invention. 6 is a flow chart for explaining the operation in the region, Figure 6 is a flow chart for explaining the operation according to the motion state of the RF tag according to an embodiment of the present invention.

Looking at the operation of the RF tag 100 through 3 as follows.

First, the transmission output to the reader 200 and the channel, the transmission period, etc. are initialized (S311), and it is determined whether an ID card (not shown) is inserted (S312). When the ID card is inserted, ID information of the ID card and RF tag ( It is determined whether the ID information stored in the memory 70 of 100 is identical (S313). If it is not matched, it is recognized as an abnormal state and an error signal is transmitted to the host computer 300 (S314). In operation S315, a wake-up signal is input from the reader 200.

The brief description of the wake-up signal, the RF tag 100 of the present embodiment usually only transmits ID information to the reader 200 at a set strength and a set interval. This is to implement a low power consumption of the RF tag 100, the RF tag 100 transmits only a signal for indicating its location, the reception receives a wake-up signal for requesting the reception from the reader 200 Only when received through the reader 200 is to turn on the reception mode. That is, when the reader 200 receives a control signal for controlling the RF tag 100 from the host computer 300 (S212) as shown in the flowchart of operation of the reader illustrated in FIG. 4, the reader 200 transmits to the corresponding RF tag 100. When the reception mode of the RF tag 100 is turned on by transmitting the wake-up signal (S213), and a response signal to the wake-up signal, that is, a reception ready signal is received from the RF tag 100 (S214), The control signal is transmitted to the RF tag 100 (S215).

In addition, since the reader 200 may have a plurality of RF tags 100 in a corresponding RF field, when the signal is periodically received from each of the RF tags 100, a plurality of RF tags having reception cycles overlapped with each other. 100 may exist, so that the communication cycle with each RF tag 100 is adjusted so as not to overlap. For example, in the reader 200 that receives information from the first tag to the tenth tag, the tag may overlap even if a period is set for each tag from 1 to 10 seconds. The five tags are set to have a period such as 5.12 seconds so as not to overlap, and the period setting of the reader 200 is made at random.

When the wake-up signal is received from the reader 200, the RF tag 100 turns on the reception mode (S316), receives a control signal from the host computer 300 (S317), and performs a control operation according to the received control signal. Do this. The control signal output from the host computer 300 will be described later in detail.

If the wake-up signal is not received, a situation signal is transmitted (S325, S326, S327) to the host computer 300 according to an event generated to detect an event occurrence (S324), that is, a low power detection signal, an emergency occurrence signal, and the like. Status information and ID information are transmitted to the reader 200 through the designated parameters, that is, the strength and the period of the transmission output, and the channel (S328).

Referring to FIG. 5, the operation of a specific security zone of the RF tag 100 is as follows. The control unit 60 of the RF tag 100 determines whether a triggering signal is input from the infrared sensor 21 (S11), and if so, determines whether or not communication with the reader 200 is performed through a specific communication channel (S12). If the specific communication channel is not in communication with the reader 200, the controller 60 outputs a control signal to the RF module 12 to communicate with the reader 200 through a specific communication channel (S15), and the triggering signal. It receives the zone information included in the determination using the zone information DB of the storage means 70 to determine whether or not (S17). Authorization information corresponding to each security zone is recorded in the zone information DB. For example, "security zone A-accessible zone" and "security zone B-non-access zone" correspond to a plurality of security zones. Authorization information is recorded.

The control unit 60 outputs a display signal for indicating that the user is an authorized person in an accessible area according to the determined authorization, and displays a display signal for indicating that an unauthorized person is not an accessible area. Output to the display unit 81 and the buzzer 82. That is, for example, if the licensed person turns on the green LED (S18), and if the unauthorized person turns on the red LED and the buzzer 82 rings at the same time (S19), the user entered the unauthorized area. Will be announced.

When the triggering signal is input and it is determined whether the communication with the reader 200 is in a specific communication channel (S12), if the communication is in a specific communication channel, the control unit 60 is a loser or used article of the RF tag 100 It is determined that the back is moving from the security zone to the general zone, the communication channel is changed to a channel other than a specific communication channel (S13), and the host computer through the reader 200 informs that the user moves from the security zone to the general zone. It transmits to S300 (S14). In this embodiment, the communication method of the RF tag 100 and the reader 200 is a frequency modulation bidirectional communication method, and a communication method is performed using a channel partitioned into a plurality of frequencies of a predetermined range. The RF tag 100 having a specific channel for monitoring a security zone and entering the security zone is monitored only by the specific channel, and the general zone is monitored by a channel other than the specific channel. 100) To increase the accuracy and reliability in monitoring. It is preferable that the specific channel has a wider frequency width than other channels, and the frequency spacing with other channels is further separated from the frequency spacing between other channels, so that the influence of crosstalk or noise is small.

Looking at the operation according to the motion state of the RF tag through Figure 6 as follows.

The controller 60 receives the detection value from the acceleration sensor 21 (S21) and determines the state of the object to which the current RF tag 100 is worn or attached using the state information DB of the storage means 70 ( S22) and outputs and cycles the transmission signal to the reader 200 according to the determined state. For example, when the RF tag 100 is attached to an expensive article, when the state in which the article is moving, that is, the detected value of the acceleration sensor 21 is detected to be greater than or equal to a set value, the controller 60 is moving. In order to accurately transmit the trajectory of the article to the reader 200, the output of the transmission signal is increased, and the transmission period is set to be frequent.

On the other hand, if the detected value exceeding the set value is not input from the acceleration sensor 21 within the set time (S23), the control unit 60 determines that the acceleration sensor 21 is defective, or the RF tag 100 is used by a person. If it is detected that the detected value is less than the set value is determined by the intentional removal of the RF tag 100 by the payer to output a display signal to generate a warning sound to the buzzer 82 and the error signal to the reader 200 The host computer 300 transmits the data through the host computer 300 (S24). In addition, if the determined state is static information, for example, if the payer is in a meeting, the output power of the transmission signal to the reader 200 is lowered and the transmission period is also adjusted (S26) to suppress unnecessary power consumption.

Considering that the RF tag 100 is portable, the power supply unit 91 is a battery, and the low voltage monitoring unit 92 detects a voltage of the power supply unit 91 and detects a voltage below a set voltage. ) Outputs a low voltage signal to the display unit 81, the buzzer 82, and the host computer 300. The loser or the proximity locator knows when to replace the battery through the display unit 81 and the buzzer 82, and the manager determines the low power state of the RF tag 100 through the host computer 300.

RF tag 100 of the present embodiment is provided with an ID card connector 40, it is also possible to connect and use the ID card that is conventionally used only for access to the premises, to prevent the use of the abnormal RF tag 100 If the ID information of the ID card and the ID information recorded in the memory 70 of the RF tag 100 are not compared, the ID card may be marked as abnormal. Since the conventional ID card has a memory (not shown) in which ID information is recorded, the ID card is connected to the ID card connector 40 of the RF tag 100, and the memory 70 of the RF tag 100 is connected. It is also possible to use the ID information of the ID card without the process of recording additional ID information. And, when combining the ID card of the other by stealing another person's RF tag 100, the controller 60 matches the ID information of the ID card and the ID information of the RF tag 100 does not match, error The display control signal is output to the display unit 81 and the buzzer 82 to display.

In addition, the RF tag 100 of the present embodiment is provided with an emergency notification button 30, when the emergency situation occurs when the operation by the wearer or proximity position, the control unit 60 through the reader 200 The host computer 300 is notified, so that in the event of an emergency, subsequent processing can proceed quickly.

7 is a block diagram illustrating an RFID system according to another embodiment of the present invention. The configuration of the RF tag 100 is the same as the embodiment of the present invention, but includes only ID information in the memory 70 '. . The host computer 300 includes a zone information DB in which ID information of a plurality of RF tags 100 and access authorization of a predetermined zone for each ID information are stored, and RF according to the degree of movement of the RF tag 100. And a control unit 310 and a storage unit 330 'including a communication information DB in which information about a communication cycle and strength between the tag 100 and the reader 200 is stored. That is, in one embodiment of the present invention, the determination of access to the setting area is performed by the RF tag 100 itself, but in the present embodiment, the host computer 300 performs the determination.

Looking at the operation with reference to Figure 8 as follows. When receiving data from the RF tag 100 (S111), the controller 310 of the host computer 300 determines an ID and a state of the tag 100 and calculates a three-dimensional position. Subsequently, it is determined whether the ID information of the ID card and the ID information of the tag 100 match (S113), and if not, the ID information of the ID card is stored in the storage means 330 ', and the ID information of the tag 100 and the current location are monitored. Displayed at 340 to inform the manager. Then, it is determined whether a change signal of the output signal of the tag 100 by the manager, such as the period, is input (S133), and if input, a control signal for changing the intensity, period, etc. of the output signal of the tag 100 is input. Output (S132). When the ID information is matched, the event occurrence (S115, S117) is detected, and when the event is detected, the ID information and the current location of the tag 100 is informed to the administrator (S116), or the tag 100 is notified to the user (S118). After detecting the event, the controller 310 of the host computer 300 determines whether the tag 100 is in a moving state (S119), and if it is in a moving state, determines whether a trigger signal is received (S120). If the triggering signal is not received, the controller 310 determines whether the current position of the RF tag 100 is in violation of the security area (S123), and in the previously estimated map (MAP) data and the position estimation step (S112). The estimated location value is matched to determine whether or not the estimated location on the map is a secure area. If the security zone violation in the determination step (S123), the fact that the security zone violation is stored in the storage means (330 ') and outputs an error signal to the monitor 340 and the buzzer 350 to inform the administrator of the unauthorized access to the security zone. (S124), the control to change the intensity and the cycle of the output signal to the tag 100, if it is input (S133) by determining whether a signal for changing the strength, period, etc. of the output signal of the tag 100 by the manager is input; Output the signal. When the triggering signal is received in step S120 of determining whether the triggering signal is received, the triggering signal is analyzed to determine whether it is a security violation area (S122). The signal is output so that the tag 100 displays it. Then, the controller determines whether the signal for changing the intensity of the output signal of the tag 100 and the signal transmission / reception period or the like is input (S133), and when the signal is input, the control for changing the output signal strength and signal transmission / reception period of the tag 100. The signal is output to the tag 100, and the control unit 60 of the tag 100 receives the control signal and changes the strength of the output signal and the signal transmission / reception period. In step S119 of determining that the tag 100 is in a moving state, if a detection value of less than a set value is input from the acceleration sensor 21 of the tag 100 for a set time, the controller 310 of the host computer 300 determines that the tag 100 is moving. It is determined that the state does not move, and determines whether the communication with the external device through the input / output port 50 of the tag 100 (S126). When communicating with an external device, the communication log with the external device is stored in the storage means 330 'of the host computer 300, and if not, it is determined by intentional removal of the tag 100 (S128). The log is stored in the storage means 330 ', and an error signal is output to the monitor 340 and the buzzer 350 (S129) to notify the manager.

RFID system according to the present invention can be used in conjunction with the building automation (Building Automation) system, the on / off of the lighting in the building, such as turning off the lights as the loser of the RF tag moves or go out, it is controlled, It will be readily apparent to those skilled in the art that the operation of an air conditioner such as an air conditioner or an air cleaner can also be controlled.

As described above, the RFID system for location recognition and tracking of a moving object of the present invention communicates with a reader through a specific communication channel among a plurality of communication channels in a specific zone having a high security level, so that the RF tag communicates with the reader. In this case, the interference of noise and noise are minimized, and thus the accuracy of the transmission and reception signal is high, thereby providing a high reliability to the user.

In addition, since the access authority information of the specific area is displayed as a sound and LED on the RF tag, it restricts entry of the unauthorized area to the specific area, so that access to the specific area can be easily managed, and subsequent processing can be quickly performed. .

In addition, the RFID system of the present invention detects the movement of the tag, and adjusts the intensity and the period of the transmission signal output to the reader according to the degree of movement, and increases the output of the transmission signal when expensive goods are being transported. In addition, the transmission cycle is also frequently performed so that the reader correctly receives the signal of the RF tag attached to the article.

In addition, when the movement of the loser of the RF tag is during a meeting or office work, the output of the transmission signal to the reader is lowered and the transmission period is further increased to suppress unnecessary power consumption.

In addition, if the movement of the RF tag is not detected within a predetermined set time, or if the detected degree of movement is less than the set value, it is determined that the error of the detecting means or the intentional detachment of the RF tag is displayed, and the following action is promptly performed. There is an advantage to losing.

An embodiment of the present invention described above and illustrated in the drawings should not be construed as limiting the technical spirit of the present invention. The protection scope of the present invention is limited only by the matters described in the claims, and those skilled in the art can change and change the technical idea of the present invention in various forms. Therefore, such improvements and modifications will fall within the protection scope of the present invention, as will be apparent to those skilled in the art.

Claims (12)

RF tag for periodically transmitting information through a plurality of communication channels, a plurality of readers for receiving and transmitting information periodically transmitted from the RF tag to a host computer, and inputs the ID signal of the RF tag from the reader In an RFID system comprising a host computer for receiving and calculating the position of the RF tag, It is further provided with a triggering device which is installed at the entrance side of the preset zone and outputs a triggering signal, The RF tag further includes an input means for receiving a triggering signal of the triggering device, The RF tag communicates with a reader through the specific channel when a triggering signal is input through the input means while communicating through a channel other than a specific channel among the plurality of channels, and communicates with the reader through the specific channel. And a triggering signal through the input means to communicate with a reader through a channel other than the specific channel. The method of claim 1, The triggering signal includes ID information of an area in which the triggering device is installed. The RF tag further includes a notification means for notifying that the tag is located in an area where the tag is not allowed, and a memory storing unique ID information. The host computer further includes a storage means for storing information about the area authorized to access the RF tag, The RF tag receives a triggering signal from the triggering device, transmits zone information included in the triggering signal and ID information of a memory to the host computer through a reader. The host computer receives zone information and ID information transmitted from the RF tag from the reader, compares the zone information of the storage means, and the ID information of the RF tag is not authorized to the zone of the zone information. If the information transmits an alarm signal to the RF tag through the reader, The notification means of the RF tag receives an alarm signal from the reader to the RFID system for recognizing and tracking the position of the object of the movable object, characterized in that to notify that the tag is located in the zone. The method according to claim 1 or 2, The RF tag further includes a motion sensor for detecting motion, The RF tag receives the detected value of the motion sensor and transmits it to a host computer through a reader, The host computer receives the detection value of the motion detection sensor of the RF tag from the reader, and transmits a non-tag signal to the RF tag when the output of the motion detection sensor is below a certain value for a predetermined time, The RF tag is an RFID system for recognizing and tracking the position of a moving object, characterized in that for generating an alarm by transmitting a signal not attached to the tag means. The method of claim 3, The storage means of the host computer further includes information on the period and intensity of communication between the reader and the RF tag according to the output of the motion detection sensor of the RF tag, The host computer receives the output of the motion detection sensor of the RF tag, and outputs a control signal so that the RF tag communicates with the reader according to the communication period and strength information corresponding to the received output, The RF tag receives the control signal and controls the communication cycle and strength with the reader, the RFID system for location recognition and tracking of the moving object. The method of claim 3, The host computer receives the output of the motion detection sensor of the RF tag, the alarm message when the output of the motion sensor is above a certain value and the RF tag is located in an area where entry and exit is not received without receiving a triggering signal. Output, RFID system for location recognition and tracking of a moving object, characterized in that for receiving and transmitting a signal for controlling the communication cycle and strength of the RF tag located in the area where the access is not authorized. The method of claim 1, The triggering signal of the triggering device is an infrared signal, And an input means of the RF tag is an infrared sensor. The method of claim 3, The RFID sensor for detecting the position of the moving object, characterized in that the movement sensor of the RF tag acceleration sensor. RF tag that periodically transmits information through a plurality of communication channels, a plurality of readers that receive the information periodically transmitted from the RF tag to the host computer, and receives the information of the RF tag from the reader An RFID system comprising a host computer for calculating the position of an RF tag, The host computer outputs a triggering signal to the RF tag through the reader by an external input signal, The RF tag communicates with a reader through the specific channel when a triggering signal is input from the host computer through a reader during communication through a channel other than a specific channel among the plurality of channels, and communicates with the reader through the specific channel. When the trigger signal is input from the host computer through the reader on the way to communicate with the reader through a channel other than the specific channel RFID system for location recognition and tracking of the movable object. The method of claim 8, And the RF tag communicates with the reader at a predetermined communication period and strength when a triggering signal is input from the host computer through a reader. The method of claim 9, The RF tag further includes a motion sensor for detecting a motion, and a notification means for informing the outside, The host computer receives the output of the motion detection sensor of the RF tag through a reader, and transmits an unattached signal to the RF tag when the output of the motion detection sensor is less than a certain value for a predetermined time, The notification means of the RF tag RFID system for recognizing and tracking the location of the moving object, characterized in that for generating an alarm by receiving the signal not attached to the tag. The method of claim 10, The host computer receives the output of the motion detection sensor of the RF tag, the alarm message when the output of the motion sensor is above a certain value and the RF tag is located in an area where entry and exit is not received without receiving a triggering signal Output, RFID system for location recognition and tracking of a moving object, characterized in that for receiving and transmitting a signal for controlling the communication cycle and strength of the RF tag located in the area where the access is not authorized. In the communication method between the reader and the RF tag to communicate through a plurality of channels, The RF tag and reader communicating through a channel other than a specific channel among a plurality of channels; When the RF tag receives a first triggering signal from an external triggering device, communicating with the RF tag through the specific channel; When the RF tag receives a second triggering signal from an external triggering device, the RF tag and the reader comprises communicating through a channel other than a specific channel of the plurality of channels between the RF tag and the reader Communication method.

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