KR20100045285A - Rfid searching system of object position - Google Patents

Abstract

PURPOSE: An object location searching system of an RFID mode is provided to find goods easily by sensing a direction of goods and a distance to the goods. CONSTITUTION: An RFID(Radio Frequency Identification) tag transmits an RF(Radio Frequency) response signal to external space. A search distance selector(12) establishes an RF signal arrival distance. RF signal generator outputs RF signal in a transmission output corresponding to RF signal reach distance. A beam focusing unit(14) makes an external transmission angle of the RF signal maintained in the range of preset fixed angle. An RF response signal sensing unit outputs a notification signal of the RF response signal to users.

Description

RDF-type object position search system {RFID SEARCHING SYSTEM OF OBJECT POSITION}

The present invention relates to an RFID-based object position searching technology, and in particular, after the RFID tag is attached to various objects owned by the user in advance, RF transmission is performed through a beam focusing function and a power amplifier in which RF reading is performed at a predetermined angle to a straight line. The present invention relates to an object location search technology that enables a user to easily find an object by searching around by using an object location search device having a distance control function to adjust an output.

RFID (radio frequency identification) is a wireless object identification technology that is a next generation recognition technology that can manage the information of the object in a variety of fields, such as security, traffic, distribution. RFID systems include antennas, transceivers, and transponders as main components, and are widely used in access control systems or electronic bill payment systems.

The basic principle of RFID is to generate a unique signal in the device that analyzes the RFID tag, and then generate the response signal by using the RFID tag as its own power and signal transmission, and recognize the existence of the RFID tag by receiving it in the RFID tag analysis device. do.

RFID tag can be implemented in a narrow space and can be implemented in a simple configuration, so it is mainly used for transportation cards, credit cards, etc., and the RFID recognition distance varies from a few cm to several tens of meters. Frequently, the frequency of about 13.5MHz is used for transportation cards and credit cards, and the frequency in the 800MHz range is also used for logistics management.

As such, RFID is widely used in various fields because it can recognize an object wirelessly. However, most of these object recognition functions are achieved by the examiner touching the object directly to the reader. Therefore, when the RFID recognition technology is applied to the field of finding an object, it is possible to detect that the object exists in the vicinity, but there is a problem in that it is not possible to know where the object is specifically.

Object positioning technology is commonly used GPS or cell phone tracking. Mobile phone tracking function is based on the base station, so the error occurs up to hundreds of meters, so there is a big limitation in applying it to everyday objects. In addition, in the case of GPS technology, the error can be reduced within a radius range of 10m, but this case also has a problem that a user can use it to find an object in daily life and GPS technology itself is expensive technology.

An object of the present invention is that the user can easily find the object by detecting the direction of the object and the distance to the object that the user wants to find and has a function that can select the object to find the user by setting different ID information for each object To provide an object location search technology.

The RFID-based object position search system according to the present invention can be adhered to the surface of an object, and embeds an RFID tag chip and an antenna to generate an RF response signal in response to the detection of an RF signal from an external space and to transmit the RF response signal to the external space. RFID tag; A search distance selector for setting an RF signal reach by a user operation; an RF signal generator for generating and outputting an RF signal at a transmission output corresponding to the RF signal reach using a power amplifier; And a beam focusing unit configured to maintain the angle within a predetermined range of angle, and an RF response signal detector configured to output a signal informing the user when an RF response signal is detected for the RF signal. It is configured by.

In addition, in the RFID object position search system according to the present invention, the beam focusing unit preferably comprises at least one of a laser beam focusing element and a high brightness LED focusing element.

In addition, in the RFID object position search system according to the present invention, the beam focusing unit is preferably configured to include a mechanism for maintaining the transmission direction of the RF signal within a predetermined range.

In addition, in the RFID object positioning system according to the present invention, it is preferable that the object positioning device further comprises at least one LED for irradiating light in the direction in which the RF signal is sent.

In addition, the RFID tag object position tracking system RFID tag according to the present invention generates and transmits an RF response signal carrying vendor ID information through an antenna when an RFID signal is embedded in an RFID tag chip so that an RF signal enters through an external space. It is desirable to.

In addition, in the RFID object tracking system according to the present invention, if the RF response signal detector includes information of a preset vendor ID in the RF response signal received through the antenna, it is preferable to output a signal indicating that the object search is successful. Do.

In addition, in the RFID object positioning system according to the present invention, the RFID tag generates and transmits an RF signal carrying group ID information through an antenna when an RF signal enters through an external space because a group ID is embedded in an RFID tag chip. It is desirable to.

In addition, the object position search apparatus in the RFID system object position search system according to the present invention further comprises a search target selection unit for selecting a search target by a user operation to select a group ID corresponding to the search target from a preset group ID; The RF response signal detector preferably outputs a signal indicating that the search for the object selected by the user is successful when the RF response signal includes information on the selected group ID.

In addition, in the RFID object position search system according to the present invention, the RFID tag generates and transmits an RF signal carrying information of the individual ID through an antenna when an RF signal is received through an external space by embedding an individual ID in the RFID tag chip. The object position search apparatus further includes a group ID input unit configured to receive and register a group ID for one or more individual IDs by a user operation, and the search target selection unit may search for a group ID and individual IDs to be searched by a user operation. The RF response signal detector is a signal indicating that the search for the target selected by the user is successful when the RF response signal includes the information of the selected individual ID or includes the information of the individual ID belonging to the selected group ID. It is preferable to output.

In addition, in the RFID-based object position search system according to the present invention, the object position search apparatus further comprises a display unit for displaying the number of the entire RFID tag searched, the information on the searched RFID tag.

In addition, in the RFID-based object position search system according to the present invention, the RFID tag is preferably made of different colors according to the type of group ID embedded in the RFID tag chip.

According to the present invention, if a user forgets a location where an object is placed or needs to find an object quickly, the user can easily find an object.

In addition, it is possible to prevent confusion with signals of other RFID tags, and by setting ID information differently according to the category of the article, the user can distinguish and search for the article by category.

In addition, by implementing the RFID tag in the form of a band can be attached to a variety of objects without inconvenience, there is an effect that can utilize the RFID tag by visually distinguishing by changing the color of the RFID tag by category.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram showing the overall configuration of the RFID object position search system according to the present invention.

The object position searching system according to the present invention is largely composed of the object position searching device 10 and the RFID tag 20.

The RFID tag 20 may be attached to the surface of an object, and embedded with an RFID tag chip and an antenna, when an RF signal is detected from an external space, the RFID tag 20 generates an RF response signal and transmits the RF response signal to the external space.

Therefore, the RFID tag 20 is attached to an object desired by the user (e.g., passport, wallet, mobile phone, notebook computer, work document, secret document, etc.), and when the user wants to find it later, the object position search device 10 is used. You can find it.

At this time, the RFID tag 20 can be easily attached to the item to be managed by the user by configuring in the form of a thin adhesive band, such as the one-to-one band, it is possible to use without inconvenience even when using the article in ordinary times. In addition, it is possible to support silk printing of various designs on the appearance of the RFID tag 20.

The object position search apparatus 10 transmits an RF signal to search for an RFID tag located near the object. In general, the RF signal spreads radially and widely, and even though the RF response signal is detected, it cannot be determined in which direction the object is located. Therefore, the beam focusing unit may be configured to maintain the angle from which the RF signal is externally transmitted to give a directivity to the RF signal in a range of a predetermined predetermined angle or a straight line.

Two methods may be proposed as a method of configuring the beam focusing unit. The first method is to mount a laser beam focusing element or a high-brightness LED focusing element to the object position search apparatus 10, and the second method is to include a mechanism for maintaining the transmission direction of the RF signal within a certain range.

In this case, a linear reflector may be used as a mechanism for maintaining the transmission direction of the RF signal within a predetermined range, and both the first and second methods may be applied to implement beam focusing. And, this beam focusing function is configured in association with the mechanical structure and the antenna.

In addition, in order to search for the position of the object, not only the direction in which the object is located but also the distance information to the object is required. Therefore, the built-in power amplifier in the object position search apparatus 10 is configured to adjust the RF signal transmission distance by adjusting the transmission output of the transmitted RF signal. In this case, the RF signal reach distance can be adjusted by the user through a key operation, which will be described in more detail with reference to FIG.

When the RF response signal transmitted from the RFID tag 20 is detected, the object position search apparatus 10 notifies the user that the RFID tag 20 is detected through a beep sound or a display indication. In this case, the search target may be specified in advance or the user may select the search target to search for an object, which will be described in more detail with reference to FIGS. 4, 5, and 6 described later.

In addition, the object position searching device 10 preferably includes one or more LEDs for irradiating light in a direction in which the RF signal is transmitted. This not only allows the user to know the direction in which the RF signal is being sent, but also to brighten the direction in which the object is being searched for to see which objects are ahead.

Through the object position detecting apparatus 10 described above, the user can find the direction in which the RF response signal is detected while changing the RF signal transmitting direction of the object position detecting apparatus 10, and the RF signal reaching distance with the fixed direction fixed. By adjusting the distance, the RF response signal can be detected. Finally, the position of the object to which the RFID tag 20 is attached is found through the direction and distance from which the RF response signal is detected.

2 is a view showing the appearance of the object position search apparatus.

The object position search apparatus 10 is preferably configured in the form of a flashlight so that the user can easily hold the hand and change the transmission direction of the RF signal.

The object position detecting device 10 can be equipped with a battery 18 to supply power regardless of the location, and when the user presses the on-off switch 11, power is supplied from the battery 18 to the internal circuit. It is supplied and the object position search apparatus 10 becomes an operable state.

The search distance selector 12 provides a function of setting the RF signal reach distance by a user operation. When the user selects the RF signal reach distance through the search distance selector 12, the internally provided RF signal generator adjusts the transmission output of the RF signal through the power amplifier. Therefore, the key operation through the search distance selector 12 and the corresponding transmission output should be previously set to correspond to each other.

The RF signal reach distance provided by the search distance selector 12 is set in consideration of the general reach distance of the RF signal used to search for an RFID tag, and presses 1m, 2m, and 3m as shown in FIG. It may be configured to select individually or may be configured to select the distance by the user arbitrarily adjusted by the wheel switch method.

The antenna 13 is responsible for transmitting and receiving the RF signal. That is, when the user presses the object search button 17, an RF signal of a transmission output corresponding to the RF signal reaching distance selected by the search distance selecting unit 12 by the RF signal generating unit is generated, and the antenna 13 does this. Send out to the outside space. Alternatively, if the RF signal reach distance is set as the default in advance and the user presses the object search button 17, the RF signal is transmitted through the search distance selector 12 after the RF signal is transmitted through the antenna 13. Can be adjusted arbitrarily.

In addition, the antenna 13 also serves to receive an RF response signal transmitted from an external space. That is, when the RF response signal is received from the RFID tag, it is provided to the internal circuit. Then, the RF response signal detection unit detects that the RF response signal for the RF signal and outputs a signal informing the user of this. The signal informing the user may be displayed through the display unit 16 or a beep sound may indicate that the object has been searched.

The laser beam focusing element 14 allows the RF signal transmitted through the antenna to be maintained while being transmitted within a predetermined range of angles. In this case, a red or green high-brightness LED focusing element may be used instead of the laser beam focusing element.

The LED 15 preferably uses a white LED used in a general flashlight, and irradiates light in a direction in which an RF signal is sent.

When the display unit 16 detects an RF response signal through the antenna 13, the display unit 16 notifies that the object that the user is looking for is detected. In this case, the display unit 16 may be configured in the form of a 7-segment display as shown in FIG. 2, or may be configured in the form of an LCD display supporting graphics and text display.

The display unit 16 may display not only a function of notifying that an object has been detected, but also the number of all RFID tags searched for, or may display information set in advance for the retrieved RFID tag. It is also possible to selectively search by setting an ID for each RFID tag, which will be described in more detail with reference to FIGS. 4, 5, and 6 described later.

3 is a block diagram showing the internal configuration of the object position search apparatus in more detail.

When the user presses the object search button 17, the RF signal TX is generated by the transceiver IC under the control of the microcomputer 43, and the RF signal amplified by the power amplifier 43 is transferred to the external space through the antenna 13. It is sent out.

In this case, the user may select the RF signal reaching distance through the search distance selecting unit 12, and in response to the user selection, the microcomputer 43 controls the power amplifier 43 to adjust the transmission output of the RF signal. Thus, the distance at which the transmitted RF signal is reached is adjusted.

When the RF response signal RX is received through the antenna 13, the microcomputer determines that the RFID tag has been searched and outputs a beep sound through the speaker 41 or indicates that the search is successful through the display unit 16.

The user may press a separate LED switch 44 to light the LED 15 to shine the light in the direction in which the RF signal is sent.

4 is an exemplary diagram illustrating an RFID tag identifier system composed of a vendor ID and a group ID.

After storing the ID in the RFID tag 20 in advance, when transmitting the RF response signal, the ID response information is included in the RF response signal and transmitted, so that the object position search apparatus 10 reads the information about the ID to read the RFID tag 20. It is possible to selectively search).

As shown in FIG. 4, the ID may be composed of a combination of vendor IDs, group IDs, and individual IDs. In some cases, the IDs may include only vendor IDs and group IDs, vendor IDs and individual IDs, and individual IDs. Can be configured in various combinations to suit.

The RFID tag identifier system is preferably set based on the RFID standard data system. For example, the RFID tag identifier system may be configured by assigning 8 digits to each ID item.

■ The vendor ID is used to prevent compatibility with other products. The vendor ID is used to ensure compatibility only between the RFID having the same vendor ID and the object location searching device.

For example, since an RFID tag is inserted into a book or a transportation card that is borrowed from a library, an RF response signal may be generated and received from the RFID tag during RFID search. Therefore, if such an RFID tag cannot be distinguished, a beep sound may be frequently generated in the object location search apparatus 10, which may confuse the user.

Therefore, it is possible to selectively distinguish the RFID tag 20 having the vendor ID corresponding to the object position search apparatus 10 currently used by the user through the vendor ID, thereby preventing confusion with other companies' products.

■ Group ID refers to an ID assigned to classify items in each category within the same vendor ID. For example, in order to distinguish between personal items and company supplies, or to distinguish between secret documents and general documents, different RFID IDs are assigned to each RFID tag 20 to selectively distinguish them.

In this case, the group ID of the RFID tag 20 may be implemented to be stored in the object position search apparatus 10 in advance, or the user may directly input the group ID of the RFID tag 20 to the object position search apparatus 10 to register it. It may be.

In addition, when the RFID tag 20 does not have a separate group ID and only an individual ID is given, the user inputs the individual ID assigned to each RFID tag 20 directly into the object location search apparatus 10 and registers the category accordingly. Group ID can be set by grouping several individual IDs. At this time, the group ID may be set by registering the number (0 to 99) or inputting a letter.

Therefore, the user can find the object in the range of the desired category by selecting the group ID to be searched through the object position search apparatus 10.

■ Individual ID means an ID uniquely assigned to each RFID tag.

In addition, although the individual ID of each RFID tag may be stored in advance in the object position search apparatus 10, the user may directly input the individual ID of the RFID tag and register it.

Therefore, the user can individually find the specific object he / she wants by selecting the individual ID to be searched through the object position search apparatus 10.

■ In the case of the RFID tag, if the colors are distinguished from each other according to the type of the group ID embedded in the RFID tag chip, it is possible to easily distinguish the categories visually when the user attaches the RFID tag to the object.

5 is an exemplary view illustrating a method of searching for an RFID tag in which the same vendor ID is stored as the object location search apparatus.

The vendor ID is pre-built in the object location searching device, and the same vendor ID is embedded in the RFID tag chip of the ① RFID tag. Therefore, ① RFID tag generates and transmits an RF response signal containing vendor ID information through an antenna when an RF signal comes in through an external space.

Then, the RF response signal detector of the object position search apparatus outputs a signal indicating that the object search is successful when the information on the preset vendor ID is included in the RF response signal received through the antenna. Therefore, in the case of RFID tag # 1, since the same vendor ID is embedded, the search success signal is output.

However, if another vendor's ID is embedded, such as the RFID tag # 2, or if such an ID is not embedded, no information of the same vendor's ID can be read from the RF response signal.

6 is an exemplary view illustrating a method of searching for an RFID tag in which a group ID identical to a group ID selected by a user is stored.

In addition to the vendor ID, the object location search apparatus includes several group IDs. The user selects the group ID to find among these. In addition, the RFID tag of the RFID tag ③ is embedded with the same group ID as the user selected group ID. On the other hand, RFID tag # 4 has the same vendor ID but contains a different type of group ID than the one selected by the user.

First, when a user selects a search target by operating a key of a search target selection unit disposed in the object position search apparatus, a group ID corresponding to the search target is selected from a group ID set in advance. The object position search apparatus externally transmits an RF signal.

And, the RFID tag # 3 and the RFID tag # 4 generates and transmits an RF signal containing group ID information through an antenna when an RF signal comes in through an external space.

Then, the RF response signal detector of the object position search apparatus outputs a signal indicating that the search for the object selected by the user is successful when the RF response signal includes information on the group ID previously selected by the user. Therefore, in the case of RFID tag # 3, since the same group ID is embedded, the search success signal is output.

However, when other group IDs are embedded like the RFID tag ④, no information is displayed since the same group ID information cannot be read from the RF response signal.

If the search is successful, the display unit may display the ID of the RFID tag and a serial number or letter corresponding thereto, as well as the total number of the currently searched RFID tags.

In addition, the user can register one or more group IDs through the group ID input unit of the object location search apparatus, thereby allowing the user to directly set and manage the category of each RFID tag.

7 is an exemplary view illustrating a method of searching for an RFID tag in which an individual ID identical to an individual ID selected by a user or an ID belonging to a group ID selected by the user is stored.

In addition to the vendor ID and group ID, the object location search apparatus may include individual IDs to individually find each RFID tag. The user may select individual IDs or group IDs to be searched among them. In this case, the user may bundle a plurality of individual IDs and register and set a group ID arbitrarily. Therefore, when the user selects a group ID to search for, several individual IDs are selected at the same time.

RFID tag ⑤ has built-in individual ID selected by the user or individual ID belonging to the group ID selected by the user. On the other hand, RFID tag ⑥ has a separate ID that is different from the one selected by the user.

First, when a user selects individual IDs or selects user-defined group IDs by operating keys of the search target selection unit disposed in the object position search apparatus, a single individual ID is selected or several individual IDs belonging to the group ID are selected. . The object position search apparatus externally transmits an RF signal.

Next, RFID tags ⑤ and RFID tags ⑥ generate and transmit an RF signal containing information of individual IDs through an antenna when an RF signal comes in through an external space.

Then, if the RF response signal detection unit of the object position search apparatus includes the information of the individual ID previously selected by the user in the RF response signal or the information of the individual ID belonging to the group ID previously selected by the user, the target selected by the user Outputs a signal indicating that the search was successful. Therefore, in the case of RFID tag ⑤, the search success signal is output because the user ID is embedded in the search.

However, in case of embedding other individual ID like RFID tag ⑥, it does not show any response because it cannot read information of individual ID to search from RF response signal.

If the search is successful, not only the total number of the various RFID tags currently searched through the display unit but also the ID of the RFID tag and a serial number or letter corresponding thereto may be displayed as described above in FIG. 6.

Although the present invention has been described in more detail with reference to the examples, the present invention is not necessarily limited to these embodiments, and various modifications can be made without departing from the spirit of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

1 is a view showing the overall configuration of an RFID object position search system according to the present invention,

2 is a view showing the appearance of an object position search apparatus;

3 is a block diagram showing the internal configuration of the object position search apparatus in more detail;

4 is an exemplary diagram illustrating an RFID tag identifier system composed of a vendor ID and a group ID.

5 is an exemplary view illustrating a method of searching for an RFID tag in which the same vendor ID is stored as the object location search apparatus;

6 is an exemplary view showing a method of finding an RFID tag in which a group ID identical to a group ID selected by a user is stored.

7 is an exemplary view illustrating a method of searching for an RFID tag in which an individual ID identical to an individual ID selected by a user or an ID belonging to a group ID selected by the user is stored.

Claims (9)

An RFID tag which can be adhered to the surface of an object and has a built-in RFID tag chip and an antenna and generates an RF response signal in response to the detected RF signal from the external space and transmits the RF response signal to the external space; A search distance selecting unit for setting an RF signal reaching distance by a user operation; an RF signal generating unit generating and outputting an RF signal using a power amplifier corresponding to the RF signal reaching distance; Object positioning device including a beam focusing unit for maintaining an externally transmitted angle within a range of a predetermined angle, and an RF response signal detector for outputting a signal informing the user when an RF response signal is detected for the RF signal ; RFID-based object location search system configured to include. The method according to claim 1, And the beam focusing unit comprises at least one of a laser beam focusing element and a high brightness LED focusing element. The method according to claim 1, And the beam focusing unit comprises a mechanism for maintaining the transmission direction of the RF signal within a predetermined range. The method according to any one of claims 1 to 3, The object position search apparatus further comprises one or more LEDs for irradiating light in a direction in which the RF signal is transmitted. The method according to claim 4, When the RFID tag has a vendor ID embedded in the RFID tag chip and an RF signal comes in through an external space, the RFID tag generates and transmits an RF response signal carrying the vendor ID information through the antenna. And the RF response signal detector outputs a signal indicating that the object search is successful when the RF response signal received through the antenna includes preset vendor ID information. The method according to claim 5, When the RFID tag has a group ID embedded in the RFID tag chip and an RF signal is input through an external space, the RFID tag generates and transmits an RF signal carrying the group ID information through the antenna. The object position search apparatus further includes a search target selection unit that selects a search target by a user operation and selects a group ID corresponding to the search target from a preset group ID, And the RF response signal detector outputs a signal indicating that the search for the object selected by the user is successful when the RF response signal includes information on the selected group ID. The method according to claim 6, When the RFID tag has an individual ID embedded in the RFID tag chip and an RF signal comes in through an external space, the RFID tag generates and transmits an RF signal containing the information of the individual ID through the antenna. The object position search apparatus further includes a group ID input unit configured to receive and register a group ID for one or more individual IDs by a user operation. The search target selection unit may be selected as a search target by a group ID and an individual ID to be searched by a user operation. The RF response signal detecting unit outputs a signal indicating that the search for the object selected by the user was successful when the RF response signal includes information on the selected individual ID or includes information about the individual ID belonging to the selected group ID. RFID object positioning system characterized in that. The method according to claim 7, The object location searching apparatus further comprises a display unit for displaying the number of the entire RFID tag searched, the information on the searched RFID tag, RFID-based object location search system. The method according to claim 8, The RFID tag is an object type search system of the RFID method, characterized in that the color is distinguished from each other according to the type of the group ID embedded in the RFID tag chip.

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