KR20060111231A - Loss prevention system and method using active RFID chip - Google Patents

Abstract

The present invention relates to a system for preventing a child using an active RFID chip, and stores unique identification information consisting of guardian information and mutually identifiable predetermined code information according to the request of an RF Frieder, and includes the following positioning command signal. A plurality of tags 100 transmitting a confirmation signal for the tag; And registering the tag based on code information through wireless communication, storing the guardian information received from a guardian in the tag, setting a maximum allowable distance for each tag, and then transferring the tag to the tag through wireless communication. Transmitting a periodic positioning command signal, receiving an acknowledgment signal corresponding to the positioning command signal from a tag, calculating a distance through a predetermined measurement method based on the received confirmation signal, and the calculated distance is Identify whether the tag is out of the maximum allowable distance preset in the tag and the tag that has not received the confirmation signal, and outputs the result to the guardian with the predetermined output information, when the dangerous signal from the tag is included in the dangerous signal Based on the identification information, it identifies the tag that sent the danger signal, outputs a warning sound and continuously RF reader 200 to perform a location measurement through a distance; It includes.

Description

MIA prevention system using active RFID chip and its method {SYSTEM FOR PREVENTING MISSING CHILDREN USING RFID-CHIP AND METHOD THEREOF}

1A is a conceptual diagram illustrating a lost child prevention system using an active RFID chip according to an embodiment of the present invention.

Figure 1b is a block diagram showing a system for preventing a child using an active RFID chip in accordance with an embodiment of the present invention.

2A to 3C are exemplary views illustrating a tag according to an embodiment of the present invention.

Figures 4a to 4c is an exemplary view showing an aldehyde group according to an embodiment of the present invention.

Figure 5a is a flow chart showing a method of preventing lost children using active RFID chip according to an embodiment of the present invention.

5B and 5C are detailed flowcharts of a method for preventing childbirth using an active RFID chip according to an embodiment of the present invention.

<Description of Symbols for Main Parts of Drawings>

100: TAG 101: antenna

110: RFID chip 120: output unit

130: input unit 140: power unit

200: Alprider 201: antenna

210: transceiver 220: input unit

230: output unit 240: power supply

250: microprocessor

The present invention relates to a system that can prevent the occurrence of various kinds of missing by using a wireless communication transmission and reception method, and more particularly, to a tag with an active RFID chip and a lost prevention system and method using the RF reader which manages the same. will be.

Representative systems for preventing lost children and methods thereof are disclosed in Korean Patent Laid-Open Publication No. 10-2003-0065014 ("Lost Loss Prevention Device Using Bluetooth") (hereinafter referred to as "prior patent 1"). .

The preceding patent 1 includes a voice signal input unit for receiving a voice of a guardian, a voice signal processor for transmitting a voice transmitted by the guardian of the guardian, and a Bluetooth unit for transmitting and receiving wireless data with the guardian. A sub-module including a sub-module including a control unit for controlling each unit, a voice signal input unit receiving a voice signal of the guardian, and a voice signal processor for transmitting a voice signal of the guardian received from the sub-module to the guardian; A Bluetooth unit for transmitting and receiving predetermined wireless data to and from the protected person, a reception level sensing unit for sensing a transmission power received through the Bluetooth unit to calculate a measurement reception level, and setting a reference reception level from the reception level sensing unit Compared with the received measurement level, the measurement reception level is the standard reception. If out of the bell, comprises a main module including a control unit for controlling the switch to a communication mode with the generation of the alarm sound.

Prior Patent 1 as described above, the main module is to be switched to the call mode with a predetermined warning sound when a predetermined distance away from the sub-module, but to implement this method requires a plurality of components as described above Bar, the overall weight and volume is increased, moreover, it is difficult to locate the subjects carrying the main module, especially in the case of the infants such as infants that can not communicate smoothly with the guardian achieves the purpose of the prior patent 1 There is a problem that this is not easy.

On the other hand, with respect to the system and method for preventing the loss of the Republic of Korea Patent Publication No. 10-2004-0043534 ("Language guidance system and method for preventing or missing child") (hereinafter referred to as "prior patent 2") Is disclosed.

The prior patent 2 comprises a transmitter for generating and transmitting position information, a receiver for receiving position information transmitted by the transmitter, and a position guide control system for receiving and guiding position information from the receiver.

Prior Patent 2 as described above implements a method of identifying a location of a protected person having the transmitter by using a GPS (Global Positioning System) module of the transmitter, but has a disadvantage in that weight and volume are increased, and is also transmitted by the transmitter. There is a disadvantage in that a plurality of base stations that require an expensive installation cost for receiving the location information is required.

In addition, the above-described conventional system for preventing the loss of infants and methods thereof are merely for the purpose of locating the ward, so that no means for notifying the ward when the ward is in danger is not provided. There is a problem.

Disclosure of Invention An object of the present invention is to solve the above problems, and to provide a method and method for preventing the loss of a child using an active RFID chip that can prevent the occurrence of the child in advance, compared to the prior art. .

Another object of the present invention is to provide a system and method for preventing a child using an active RFID chip capable of achieving the above object even in the case of a protected person who is incapable of communicating with the protector.

Still another object of the present invention is to provide a system and method for preventing a child using active RFID chip that can notify a guardian when a guardian is in danger.

The present invention for achieving the above object relates to a system for preventing a child using an active RFID chip, unique identification information consisting of guardian information and mutually identifiable predetermined code information according to the request of the RF Frieder 200 below. A plurality of tags (100) for storing and transmitting an acknowledgment signal for the following positioning command signal; And registering the tag 100 based on code information through wireless communication, storing the guardian information received from the guardian in the tag 100, and allowing the maximum allowable distance R for each tag 100. After setting the, and transmits a periodic positioning command signal to the tag 100 through a wireless communication, receives a confirmation signal corresponding to the positioning command signal from the tag 100, and receives the received confirmation signal The distance is calculated based on a predetermined measurement method, and whether the calculated distance deviates from the maximum allowable distance R preset in the tag 100 and identifies the tag 100 in which no confirmation signal is received. The result is output to the guardian as predetermined output information, and when the danger signal is received from the tag 100, the tag 100 which has transmitted the danger signal is identified based on the identification information included in the danger signal. In addition, an RF reader 200 for outputting a warning sound and performing positioning through continuous distance measurement; It includes.

Preferably, the predetermined measurement method is characterized in that at least one of the method of measuring the signal strength of the confirmation signal and the method of measuring the transmission and reception time difference between the positioning command signal and the confirmation signal.

In addition, preferably, when the RFID reader 200 identifies a tag that is out of the maximum allowable distance R, the positioner signal is transmitted to the tag 100.

Also preferably, the tag 100 may include an RFID chip 110 that stores the unique identification information and transmits a positioning signal corresponding to the positioning command signal, and a small speaker or a buzzer. An output unit 120 for outputting a sex message, an input unit 130 including a push-type button for generating a predetermined danger signal for informing the guardian when the guardian is in a dangerous situation or an emergency situation, and required for operation It characterized in that it comprises a power supply unit 140, and an antenna 101 for supplying power.

Also, preferably, when the RFID chip 110 detects that the input unit 130 has been pressed by the guardian, the RFID chip 110 transmits a danger signal including identification information to the RFID reader 200.

Also, preferably, when the RFID chip 110 receives the positional deviation signal from the RF reader 200, the RFID chip 110 outputs a warning sound through the output unit 120.

Also, preferably, the RF reader 200 may include an antenna 201, a transceiver 210 configured to perform wireless communication with the tag 100, and measure signal strength of a received signal. An input unit 220 for detecting a predetermined pressing signal by the guardian, including a function button, an output unit 230 for outputting the output information in the form of a text or voice, and a power supply unit 240 for providing power for operation And a microprocessor 250 for performing a control operation by predetermined operating software stored in the internal memory.

Also preferably, the operation software is characterized in that it includes a function for calculating the distance based on a predetermined signal received through the transceiver 210.

Also, the predetermined output information may include code information, a predetermined maximum allowable distance R of the tag 100 corresponding to the code information, and a calculated distance.

Also, preferably, if there is a location tracking request for the tag 100 outside the maximum allowable distance after the output information is output to the guardian, the RF reader 200 periodically checks for a positioning command signal. It is characterized in that for receiving the distance to the guardian in real time the distance of the tag 100 outside the maximum allowable distance (R).

Also preferably, the tag 100 is in the form of a watch or a necklace.

On the other hand, the present invention for achieving the above object, relates to a method of preventing a child using an active RFID chip, the RFID reader 200 reads the identification code information of the tag 100 by wireless communication to the internal memory Registering and receiving information on a maximum allowable distance and a guardian of the tag (100) from a guardian and storing the received information in the tag (100); A second step in which the RF reader 200 transmits a positioning command signal to a plurality of registered tags 100 and receives a confirmation signal corresponding to the positioning command signal from the plurality of tags 100; ; The RF reader 200 calculates the distance through a predetermined measurement method based on the confirmation signal received in the second step through the operating software, and the maximum allowable distance of the corresponding tag 100 in which each calculated distance is preset Determining whether or not it is within; A fourth step in which the RF reader 200 outputs information on each tag 100 outside the maximum allowable distance to the guardian through the determination of the third step; If there is a location tracking request for the tag 100 outside the maximum allowable distance from the guardian, the RF reader 200 periodically receives a confirmation signal for the positioning command signal to the tag 100 outside the maximum allowable distance. A fifth step of outputting the distance to the guardian in real time; And when the RFID reader 200 receives the dangerous signal from the tag 100, identifies the tag 100 transmitting the dangerous signal on the basis of the identification information included in the dangerous signal. A sixth step of performing location tracking through continuous distance measurement by the controller; It includes.

Also preferably, the predetermined measuring method may be at least one of a method of measuring signal strength of the confirmation signal and a method of measuring a transmission / reception time difference between the positioning command signal and the confirmation signal.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention. Before describing the present invention in detail, it should be noted that the detailed description of known functions and configurations related to the present invention is omitted if it is determined that the gist of the present invention may unnecessarily obscure the subject matter of the present invention. will be. Referring to FIG. 1A and FIG. 1B, a system for preventing a mother using an active RFID chip according to an embodiment of the present invention is as follows. FIG. 1A is a conceptual diagram illustrating a system for preventing child death using an active RFID chip according to an embodiment of the present invention, and FIG. 1B is a diagram illustrating a system for preventing child death using an active RFID chip according to an embodiment of the present invention. 2A to 3C are exemplary diagrams illustrating a tag according to an embodiment of the present invention, and FIGS. 4A to 4C are exemplary diagrams showing an Alprider group according to an embodiment of the present invention.

As shown in FIGS. 1A and 1B, a lost child prevention system (hereinafter, referred to as a lost child prevention system) using an active RFID chip may include a tag 100 having unique identification information and a wireless communication (RF). And an RF reader 200 which reads and decodes in a manner. The MIA prevention system having such a configuration as a whole uses a Radio Frequency Indentification (RFID) system to achieve the characteristic object of the present invention, which is the prevention of the occurrence of Mia as described above. As is well known, such an RFID system is also referred to as a smart tag due to its characteristic operating aspect. The RFID system is a system for identifying and processing a thin flat RFID tag attached to an object in a non-contact manner through a radio signal of a predetermined frequency band. It consists of a reader, a tag that stores unique identification information, and certain operating software. In some cases, a separate wired / wireless communication system is further included.

In this regard, the tag 100 according to the characteristic aspect of the present invention stores unique identification information at the request of the RF reader 200, as shown in FIG. The RFID chip 110 to transmit, a small speaker or buzzer output unit 120 for outputting a warning message, and a predetermined danger signal to notify the guardian when the guardian is in a dangerous or emergency situation It consists of an input unit 130 consisting of a push-type button for generating a, a power supply unit 140 for supplying power required for operation, and an antenna 101.

In this case, when the guardian presses the input unit 130 when a dangerous situation or an emergency occurs, a predetermined danger signal including identification information is transmitted to the following RFID reader 200. In addition, the RFID chip 110 outputs a predetermined warning sound through the output unit 120 when receiving the positional deviation signal to be described below from the RF reader 200, whereby the guardian listening to the warning sound It is possible to recognize that it is out of the maximum allowable distance (R). In the present embodiment, the tag 100 may be set to transmit a warning signal to the RF reader 200 and output a warning sound through the output unit 120, but the present invention is not limited thereto.

A tag that transmits an RF signal by itself, such as the tag 100 having the above-described characteristic configuration, and receives power for all operations from its power supply unit 140 is called a so-called active tag. The tag 100 may be carried by the guardian in various forms. More specifically, the tag 100 having a form that can be easily carried by the ward is generally small in shape and light in weight, and may be set in the form of a wristwatch as shown in FIGS. 2A to 2C, and FIG. 3A. It may also be set in the form of a necklace as shown in Figure 3c. However, the appearance of the tag 100 may be modified in various ways, and the present invention is not limited to the appearance or shape of the tag 100.

For reference, the passive tag, in contrast to the active tag, deforms and reflects a radio signal received from a reader, and generates power required for operation by using an induced current induced in the antenna 101 by the radio signal. Has Of course, the passive tag is easier to maintain and manage than the active tag, but in order to generate power, the distance between the tag and the reader should be within 0.16λ (lambda wavelength), which is inductively coupled. The low frequency must be utilized, and therefore, the communication distance is very short within 1m. Accordingly, the tag 100 according to the characteristic aspect of the present invention is set to an active tag method having a wider communication effective distance (typically 3 m or more, but up to 50 m or more depending on the structure of the power supply and the antenna). desirable. In the present embodiment, the unique identification information is set to be information about a guardian (hereinafter referred to as "guardian information") and predetermined code information in which each tag 100 can be mutually identified. It is not limited.

And, the RF reader 200, as shown in Figure 1b, performs a wireless transmission and reception function with the tag 100 described above, and the transceiver 210 for measuring the signal strength for the received predetermined signal, Although not shown, it includes an input unit 220 including a plurality of function buttons for detecting a pressing signal thereto, an output unit 230 for outputting information related to operation in the form of text or voice, and power for operation It consists of a power supply unit 240, and a microprocessor 250 for controlling the components of the RF reader 200. In addition, an antenna 201 is further provided for smooth transmission and reception of a wireless signal through the transceiver 210. Herein, the antenna 201 may be set to various types of antennas installed outside or inside the RFID reader 200. In the present embodiment, the output unit 230 will be set to a display such as an LCD and a small speaker such as a buzzer, but the present invention is not limited thereto.

According to an aspect of the present invention having the above-described configuration, the RF reader 200 may store guardian information in each tag 100 through wireless communication under the control of the microprocessor 250. Each tag 100 may be registered and managed based on unique identification information. Here, the guardian information is information received from the guardian through the input unit 220, such information may be registered and stored in the internal memory of the microprocessor 250 and used repeatedly. For reference, the RF reader 200 is based on the final standard (6.3.4 Anti-collision Parameters of 18000-7) of the International Organization for Standardization / ISO (IEC). Up to 3,000 can be registered and managed extensively without any logical conflict. Of course, it is obvious that the number of upper limit is changed by technology development, the present invention is not limited to the upper limit related to the tag 100 registration.

In addition, the RF reader 200 according to another aspect of the present invention, may transmit a positioning command signal to the registered tag 100 through the transmission and reception unit 210 at predetermined time intervals, the location confirmation Each tag 100 receiving the command signal transmits a confirmation signal. In this case, the identification signal transmitted from each tag 100 includes unique identification information, and the RF reader 200 receiving the received method measures the signal strength of the confirmation signal received through the transceiver 210. And a distance between the RFID reader 200 and the respective tags 100 through at least one method of measuring a transmission / reception time difference between the positioning command signal and the confirmation signal.

For reference, the signal strength basically shows a property inversely proportional to the square of the distance. In practice, however, the error can be large due to characteristics such as being inversely proportional to the cube of the distance or to the square of the square due to the influence of the surrounding environment. Therefore, as in this embodiment, the distance calculation between the tag 100 and the RF reader 200 uses a measurement method including a signal strength of the confirmation signal and a time difference between transmission and reception between the positioning command signal and the confirmation signal. desirable.

When the tag 100 that deviates by more than a predetermined distance (maximum allowable distance) is identified through the distance calculation, the identification information, the calculated distance, and a predetermined warning sound of the corresponding tag 100 are output to the output unit 230. In addition, the position departure signal is transmitted to the tag 100 outside the maximum allowable distance.

Therefore, the guardian can determine whether the guardian carrying the tag 100 has left. Here, each of the tags 100 may be individually set by predetermined numerical information (maximum allowable distance, R) input by the guardian through the input unit 220, and thus the guardian may carry the tag 100. It is possible to flexibly set the maximum allowable distance R that a guardian can fall from the guardian who carries the RFF 200.

In addition, the RFID reader 200 according to another aspect of the present invention, the tag 100 that has not received the confirmation signal for the positioning command signal as described above from each registered tag 100, The identification information of the tag 100 outside the maximum allowable distance is processed in a list format and output to the output unit 230, and the guardian performs the position tracking through the input unit 220 among the tags that exceed the maximum allowable distance R. When a tag 100 to be selected is selected, a tracking mode for the corresponding tag 100 is performed. The position tracking mode means that the above-described distance calculation is performed in real time through continuous confirmation signal reception of the positioning command signal. Accordingly, the guardian who owns the RFID reader 200 may have a corresponding tag 100. Tracking is possible while moving toward the ward. In the present embodiment, the function related to the distance calculation is preferably included in the operating software stored in the memory in the microprocessor 250.

And the RFID reader 200 according to a more characteristic aspect of the present invention, when receiving a danger signal from the tag 100, identifies the tag 100 based on the identification information included in the danger signal and In addition to outputting a predetermined warning sound, the tracking mode as described above is automatically performed. This characteristic operation allows the guardian to be more proactive in dealing with the danger or crisis of the ward.

Hereinafter, referring to FIG. 5A to FIG. 5C, a method of preventing a lost child using a lost child prevention system according to an embodiment of the present invention having the above-described configuration and characteristic functions will be described below. Figure 5a is a flow chart showing a method of preventing the lost using an active RFID chip according to an embodiment of the present invention, Figures 5b and 5c is a detail of the method of preventing a lost using an active RFID chip according to an embodiment of the present invention It is a flow chart.

As shown in FIG. 5A, the microprocessor 250 of the RF reader 200 registers the tag 100 so that it can be identified by wireless communication through the transceiver 210 (S510). More specifically, as shown in FIG. 5B, the microprocessor 250 reads the identification code information of the tag 100, registers and stores it in the internal memory (S512), and protects it through the input unit 220. The maximum allowable distance R and the guardian information of the tag 100 are received from the tag 100 and stored in the tag 100 (S514 and S516).

In this case, the maximum allowable distance R of the tag 100 set in step S514 is stored based on the identification code information of the tag 100 stored in step S512. Therefore, it is possible to determine whether the tag 100 is within a preset maximum allowable distance R from the confirmation signal of the tag 100 corresponding to the periodic positioning command signal of the RF reader 200 to be described below. do. In the present embodiment, the guardian information may be variously set by a plurality of letters or numbers or a combination of letters and numbers through the input unit 220, but the present invention is not limited to the combination method.

Next, the microprocessor 250 transmits a positioning command signal to the plurality of tags 100 previously registered through the transceiver 210, and transmits a plurality of tags to confirm a signal corresponding to the positioning command signal. Received from the (100) (S520, S530). Here, the positioning command signal, and when the tag 100 receives it and the RF reader 200 to transmit a confirmation signal consisting of a predetermined code including the unique identification information stored in the tag 100 and The command signal is negotiated between the tags 100. On the other hand, the microprocessor 250 that receives the confirmation signal from the plurality of tags 100 through the transceiver 210, based on the unique identification information contained in the received confirmation signal, the confirmation signal is a tag It is easy to identify whether it was transmitted from.

Thereafter, the microprocessor 250 identifying the above-described confirmation signal calculates a distance based on each confirmation signal by using internal operating software, and the calculated distance is the maximum value of the corresponding tag 100 preset. It is determined whether or not it is within an allowable distance. In addition, the microprocessor 250 identifies the tag 100 missing the receipt of the confirmation signal in a list form by matching each received confirmation signal with the previously registered tag 100 (S540). In this case, the tag 100 in which the confirmation signal reception is missed is out of a distance beyond the maximum allowable distance R, where the confirmation signal reception is impossible, or the tag 100 is damaged or inoperable. Estimation is possible at 100.

After the step S540, the microprocessor 250 includes identification code information and calculated distances for the tags 100 outside the maximum allowable distance R, among the tags 100 whose distances are identified. Information and / or a predetermined warning sound is output to the output unit 230 (S550). At this time, the microprocessor 250 transmits the positional deviation signal to the tag 100 outside the maximum allowable distance (R). Here, the information output through the output unit 230 includes not only the tags 100 outside the maximum allowable distance R, but also each of the plurality of registered tags 100, for example, "identification code information." -Maximum allowable distance-Current distance "is preferably output in the form of a list, and the tags outside the maximum allowable distance in the list and the items of tags for which no confirmation signal is received can be distinguished from other normal tags. It is desirable that it be highlighted. Of course, such a series of subsidiary procedures (output in list form, highlighting) can be implemented by easily adapting or modifying the operating software included in the microprocessor 250 to those skilled in the art. This possibility is self-evident. In this embodiment, each of the tags 100 previously registered in the RF reader 200 is set to be output to the guardian through the output unit 230 in the form of "identification code information-maximum allowable distance-current distance". However, the present invention is not limited to the form.

On the other hand, in the list of the tag 100 output through the output unit 230, the guardian selects a specific tag (tag outside the maximum allowable distance) through the input unit 220, the position tracking of the tag It may be (S560). To this end, as shown in FIG. 5C, the microprocessor 250 transmits a periodic positioning command signal to the selected specific tag through the input unit 200 (S562), and then receives the confirmation signal received from the specific tag. By receiving the received signal (S564), and calculates the distance based on the received confirmation signal, and outputs the result to the output unit 230, the guardian carrying the RF reader 200 to move the specific tag 100 It will be possible to locate and keep track of the participant in possession. In the present embodiment, the steps S562 to S566 are the same as the above steps S520 to S540, and are described to illustrate the method for tracking the location of the protected person having the specific tag 100.

In addition, the step S570 illustrated in FIG. 5A is a characteristic step of the present invention. When the guardian transmits a dangerous signal by pressing the input unit 130 provided in the tag 100, the microprocessor 250 receives the dangerous signal. ) Identifies the tag 100 corresponding to the identification code included in the danger signal, outputs a predetermined warning sound to the output unit 230, and executes the above-described step S560, the situation in crisis or danger situation The target person who carries the tag 100 is tracked.

As described above, the lost child prevention system according to the present invention can easily grasp the distance between the RFF 200 for each of the protectors carrying the pre-registered tag 100, and the predetermined maximum allowable. If the distance (R), or if there is a tag 100 that transmits a danger signal, it has a distinctive advantage that the guardian can identify and take appropriate follow-up measures, more proactively prevent the occurrence of missing .

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

According to the present invention as described above, there is an effect that can prevent the occurrence of the lost in advance than in the prior art.

In addition, according to the present invention, there is also an effect that can prevent the occurrence of the lost child through the location tracking as described above, even if the protector has a poor ability to perform a conversation with the guardian.

In addition, according to the present invention, when the guardian is in a dangerous situation by notifying the guardian by sending a danger signal, there is an effect that the guardian can quickly follow up through real-time location tracking.

Claims (13)

In the lost child prevention system using active RFID chip, A plurality of tags 100 for storing unique identification information consisting of guardian information and mutually identifiable predetermined code information according to the request of the RF reader 200, and transmitting confirmation signals for the following positioning command signals. ; And Register the tag 100 based on the code information through wireless communication, and store the guardian information received from the guardian in the tag 100, and the maximum allowable distance (R) for each tag (100) After the setting, a periodic positioning command signal is transmitted to the tag 100 through wireless communication, a confirmation signal corresponding to the positioning command signal is received from the tag 100, and based on the received confirmation signal. The distance is calculated through a predetermined measurement method, and whether the calculated distance deviates from the maximum allowable distance R preset in the tag 100 and identifies the tag 100 in which no confirmation signal is received. And outputs the result to the guardian as predetermined output information, and when receiving the danger signal from the tag 100, identifies the tag 100 transmitting the danger signal based on the identification information included in the danger signal. RF reader 200 for outputting a warning sound and ulreo performing positioning through continuous distance measurement; Mia prevention system using an active RF ID chip comprising a. The method of claim 1, The predetermined measurement method is MIA prevention system using an active RFID chip, characterized in that at least one of the method of measuring the signal strength of the confirmation signal and the method of measuring the transmission and reception time difference between the positioning command signal and the confirmation signal. The method of claim 1, The RF pile 200, When identifying a tag that is out of the maximum allowable distance (R), MIA prevention system using an active RFID chip, characterized in that for transmitting the position departure signal to the tag (100). The method of claim 1, The tag 100, An output unit 120 for storing the unique identification information, and the RFID chip 110 for transmitting a positioning signal corresponding to the positioning command signal, a small speaker or buzzer for outputting a warning message; The input unit 130 includes a push-type button for generating a predetermined danger signal for notifying the guardian when the guardian is in danger or emergency, the power unit 140 for supplying power for operation, and an antenna. MIA prevention system using the active RFID chip, characterized in that it comprises a (101). The method of claim 4, wherein The RFID chip 110, When the input unit 130 detects that the guardian is pressed, the MIA prevention system using an active RFID chip, characterized in that for transmitting a dangerous signal containing the identification information to the RF reader 200. The method of claim 4, wherein The RFID chip 110, When receiving the positional separation signal from the RF reader 200, MIA prevention system using an active RFID chip, characterized in that outputs a warning sound through the output unit (120). The method of claim 1, The RF pile 200, A predetermined push signal by a guardian including an antenna 201, a transceiver 210 for measuring signal strength for a predetermined signal received while performing wireless communication with the tag 100, and a plurality of function buttons An input unit 220 for detecting a signal, an output unit 230 for outputting the output information in the form of a text or a voice, a power supply unit 240 for supplying power for operation, and predetermined operating software stored in an internal memory. Loss and loss prevention system using an active RFID chip, characterized in that it comprises a microprocessor (250) for performing a control operation by. The method of claim 7, wherein The operation software, Loss prevention system using an active RFID chip, characterized in that it includes a function to calculate the distance based on the predetermined signal received through the transceiver 210. The method of claim 1, The predetermined output information, MIA prevention system using an active RFID chip comprising a code information, a predetermined maximum allowable distance (R) of the tag (100) corresponding to the code information, and the calculated distance. The method of claim 1, If there is a location tracking request for the tag 100 outside the maximum allowable distance after the output information is output to the guardian, The RFID reader 200 receives the confirmation signal for the positioning command signal periodically and outputs the distance of the tag 100 outside the maximum allowable distance R to the guardian in real time. Mia prevention system using. The method according to claim 1 or 4, The form of the tag 100, Missing prevention system using an active RFID chip, characterized in that the watch form or necklace form. In the lost child prevention method of the lost child prevention system consisting of a plurality of tags 100 and the RF reader 200 to register and manage the tag 100, The RFID reader 200 reads identification code information of the tag 100 by wireless communication and registers the identification code information in the internal memory, and receives information about the maximum allowable distance and the guardian of the tag 100 from the guardian. Storing in 100); A second step in which the RF reader 200 transmits a positioning command signal to a plurality of registered tags 100 and receives a confirmation signal corresponding to the positioning command signal from the plurality of tags 100; ; The RF reader 200 calculates the distance through a predetermined measurement method based on the confirmation signal received in the second step through the operating software, and the maximum allowable distance of the corresponding tag 100 in which each calculated distance is preset Determining whether or not it is within; A fourth step in which the RF reader 200 outputs information on each tag 100 outside the maximum allowable distance to the guardian through the determination of the third step; If there is a location tracking request for the tag 100 outside the maximum allowable distance from the guardian, the RF reader 200 periodically receives a confirmation signal for the positioning command signal to the tag 100 outside the maximum allowable distance. A fifth step of outputting the distance to the guardian in real time; And When the RF reader 200 receives the danger signal from the tag 100, the RFID reader 200 identifies the tag 100 that transmits the danger signal based on the identification information included in the danger signal and performs the fifth step. A sixth step of performing location tracking through continuous distance measurement; Mia prevention method using an active RF ID chip comprising a. The method of claim 12, The predetermined measurement method is MIA prevention method using an active RFID chip, characterized in that at least one of the method of measuring the signal strength of the confirmation signal and the method of measuring the transmission and reception time difference between the positioning command signal and the confirmation signal.

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