KR20110037110A - System and method for controlling near filed communication using radio frequency identification technology - Google Patents

Abstract

PURPOSE: A system and method for controlling a local communication control using RFID technology are provided to control active/inactive about local wireless communication module by using an RFID technology. CONSTITUTION: An individual portable terminal(100) loads an RFID tag(160) and a local area communication module. If the RFID tag enters a wireless communication area generated by an RFID reader(200), the RFID tag stores connection information in an RFID tag memory through a wireless frequency which is transmitted from the RFID reader. The local communication model is activated as information is received from the RFID tag. The local communication module attempts communication access to a locatl wireless communication device with connection information stored in the RFID tag memory.

Description

Near field communication control system and method using radio frequency recognition technology {SYSTEM AND METHOD FOR CONTROLLING NEAR FILED COMMUNICATION USING RADIO FREQUENCY IDENTIFICATION TECHNOLOGY}

The present invention relates to a short range communication control system and method using Radio Frequency Identification Technology (RFID), and more particularly, to a personal portable terminal equipped with a RFID tag function and a short range wireless communication technology. The present invention relates to a short range communication control system and method using radio frequency recognition technology that provides convenience of use by controlling activation / deactivation of a short range wireless communication module and reduces standby power consumption of a personal portable terminal.

Recently, networking technology using RFID has been actively studied.

RFID is a technology that identifies a product in a non-contact manner using radio frequency. A networking system using RFID refers to a system that provides additional services related to products by identifying products through RFID and providing the identified information through various communication networks.

The RFID technology for this may be implemented as an RFID tag consisting of an electronic chip and an antenna attached to the product and information about the product is input, and an RFID reader for controlling frequency transmission and reading data received from the RFID tag. In this case, the RFID tag and the RFID reader in the RFID system are coupled by an antenna that transmits radio frequency and transmits data transmitted from the RFID tag to the RFID reader.

The RFID system is divided into two types of low frequency system and high frequency system according to the operating frequency. Low frequency systems have operating frequencies below 300MHz, with 125KHz and 13.56MHz being the standard operating frequencies. Such low frequency systems are relatively inexpensive, can store small amounts of data, have a short reading distance, and can be implemented in various forms such as cards, rings, buttons, and pens. In addition, there is a feature in that an omnidirectional antenna is applied. The high frequency system has an operating frequency of 400MHz or more and generally uses an operating frequency of 860-930MHz and 2450MHz. These high frequency systems have long reading distances from several meters to more than ten meters, making them suitable for moving objects or multi-tag packages that must be recognized very quickly, and feature many directional antennas within RFID readers and RFID tags. .

In such an RFID system, data exchange consists of three processes as follows.

In the first process, when the RFID tag enters the communication area of the RFID reader, the antenna of the RFID tag operates according to the data mounted on the RFID tag, and the antenna of the RFID reader captures it.

In the second process, the signal captured by the RFID reader is converted into data and processed.

In the third process, the RFID reader again changes the data of the RFID tag by various algorithms.

In this case, the second and third processes may be independently performed, and in this process, various services may be implemented when various data are processed.

Related to short-range communication among services that can be implemented, there is a technology that can remotely control a short-range communication function of a conventional mobile communication terminal lost through RFID technology. This is a technology for controlling to block other WPAN connections associated with the mobile communication terminal by transmitting a connection control message to the mobile communication terminal when the mobile communication terminal is lost. However, this conventional technology has a limitation that it can be applied only to the usage right control of the WPAN function connected to the mobile communication terminal.

As another example, there is a technology of acquiring Bluetooth connection information using RFID and exchanging personal information when Bluetooth communication is possible through the acquired Bluetooth connection information. Here, the use of RFID is to simplify the process of setting up the Bluetooth communication path. The RFID reader and the RFID tag are both mounted on the Bluetooth mobile communication terminal to implement the transfer of personal information between the mobile communication terminals through the RFID tag information.

However, this conventional technology requires a lot of power consumption when implemented on the terminal since the RFID reader must always be on (on) in order to obtain Bluetooth information. Therefore, in order to save power, it is necessary to separately provide a user interface for turning on / off the RFID reader.

As another example, there is a technology of performing a bonding process of Bluetooth communication using RFID technology. That is, the Bluetooth tag of the mobile communication terminal reads the RFID tag attached to the Bluetooth device, and based on the read information, it is a technology that allows for convenient pairing and Bluetooth communication between the Bluetooth devices. The prior art minimizes the user's involvement in the Bluetooth connection process, but there is a problem that additional involvement of the user is still inevitable due to the use of the RFID reader, and excessive battery power consumption causes a problem in the battery of the terminal.

Therefore, in the short-range communication service using the conventional RFID technology, while reducing the standby power consumption of the terminal while providing convenience for minimizing the user's involvement, it is possible to eliminate additional user setting work despite the RFID technology. There is a need for a solution.

SUMMARY OF THE INVENTION The present invention has been made in view of the above necessity, and provides convenience of use by controlling activation / deactivation of a short range wireless communication module by using RFID technology to a personal portable terminal capable of short range wireless communication and standby of a personal portable terminal. An object of the present invention is to provide a short range communication control system and method using radio frequency recognition technology that can reduce power consumption.

To this end, according to a first aspect of the present invention, a short-range communication control system using a radio frequency recognition technology, in a short-range communication control system capable of connecting to the Internet through a short-range wireless communication equipment, the connection information required to connect the short-range communication RFID reader for periodically transmitting the radio frequency; And an RFID tag that stores the access information in an RFID tag memory through a radio frequency transmitted from the RFID reader when entering the wireless communication area generated by the RFID reader, and is activated as information is received from the RFID tag. It may include a personal portable terminal equipped with a short-range communication module for attempting a communication connection to the short-range wireless communication device with the access information stored in the RFID tag memory.

According to a second aspect of the present invention, a personal portable terminal includes: a short-range communication module for enabling short-range communication by connecting to the short-range wireless communication device, the terminal being capable of accessing the Internet through a short-range wireless communication device; When entering an Internet service zone providing an Internet access service through the short range wireless communication device, the RFID device receives access information necessary for short range communication connection from an RFID reader located in the Internet service area and stores the access information in an RFID tag memory. tag; And monitoring whether the RFID tag receives information and selectively activating / deactivating the short range communication module according to whether the information is received, and when the short range communication module is activated, the short range communication module based on the access information stored in the RFID tag memory. It may include a control unit for controlling to attempt to connect to the wireless communication equipment.

According to a third aspect of the present invention, a method for controlling short-range communication using radio frequency recognition technology is provided in a short-range communication control method for providing Internet access through a short-range wireless communication device in a personal portable terminal. Periodically transmitting, at a radio frequency, access information necessary for a short-range communication connection by an RFID reader provided in a possible Internet service zone; When the personal portable terminal enters into the communication area of the RFID reader, the RFID tag mounted on the personal portable terminal receives connection information necessary for the short-range communication connection from the radio frequency transmitted from the RFID reader to the RFID tag memory. Storing; And when the connection information necessary for the short-range communication connection is received to the RFID tag, at the same time, the personal portable terminal activates a short-range communication module and then communicates to the short-range wireless communication device based on the connection information stored in the RFID tag memory. Attempting to connect.

According to a fourth aspect of the present invention, a method for controlling short-range communication of a personal portable terminal may include a method for controlling short-range communication of a personal portable terminal capable of accessing the Internet through a short-range wireless communication device, the RFID tag mounted on the personal portable terminal. Monitoring whether access information necessary for the short-range communication connection is received; Storing the access information in an RFID tag memory when the access information necessary for the short-range communication connection is received in the RFID tag; Determining a type of short-range communication from the access information stored in the RFID tag memory; Activating a corresponding short range communication module according to the determined type; And when the corresponding short range communication module is activated, attempting a communication connection to the short range wireless communication device based on the access information stored in the RFID tag memory.

According to the present invention, the user can use the short-range communication in a zone in which the short-range communication service is available without a separate user setting operation, and activates the short-range communication module to check whether the service is possible by checking the communication availability. There is an effect that can resolve the inconvenience.

In addition, there is an effect that the standby power consumption of the terminal can be reduced by mounting the RFID tag in the personal portable terminal and activating the near field communication module according to the operation of the RFID tag.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. The configuration of the present invention and the operation and effect thereof will be clearly understood through the following detailed description. Prior to the detailed description of the present invention, the same components will be denoted by the same reference numerals even if they are displayed on different drawings, and the detailed description will be omitted when it is determined that the well-known configuration may obscure the gist of the present invention. do.

1 is a block diagram showing the configuration of a short-range communication control system using RFID according to an embodiment of the present invention.

Referring to FIG. 1, a short range communication control system according to an exemplary embodiment of the present invention includes a personal portable terminal 100 in which an RFID tag 160 is mounted, and an RFID reader 200 that is provided separately from the personal portable terminal 100. It is implemented, including a near field communication device 300 for a near field communication connection.

By such a configuration, the short-range communication control system according to an embodiment of the present invention, the personal portable terminal 100 is a short-range wireless communication device 300 without the user's setting operation by the exchange of information between the RFID tag 160 and the RFID reader 200. By connecting with), it provides a service capable of accessing the Internet 400 through local area communication.

In an embodiment of the present invention, the personal mobile terminal 100 may include a mobile phone, a smart phone, a personal digital assistant (PDA), a digital broadcasting terminal, and the like.

The RFID tag 160 basically stores an identification number for the personal mobile terminal 100, and may store access information necessary for short-range communication connection and activation information for activating the short-range communication module as related information about the communication environment. .

At this time, the access information required for short-range communication connection is received through the RFID reader 200.

The RFID reader 200 according to an embodiment of the present invention is provided in an Internet service zone, which is a specific space constructed to enable internet access through short-range wireless communication.

As such, in order to store the information received through the RFID reader 200 in the RFID tag 160, the RFID tag 160 should be provided in the form of a chip capable of reading / writing.

Because the RFID reader 200 has a different communication environment according to the short-range communication system in which the Internet service zone in which the RFID reader 200 is located is established, the personal portable terminal 100 is connected to the Internet through the personal portable terminal 100. This is because it is necessary to obtain information on the communication environment supported in each Internet service area. That is, the RFID tag 160 mounted on the personal portable terminal 100 should be able to receive and store information on communication screens supported in each Internet service area. However, although the conventional read-only tag can transmit tag information of the personal mobile terminal 100, it cannot accept information on the communication environment received from the outside, and thus uses a tag capable of writing. .

Such a chip capable of reading / writing can be changed in program and data, and can be implemented as EEPROM or flash memory.

In addition, the RFID tag 160 according to the embodiment of the present invention is a passive tag, and no power supply is required therein, and operation power is obtained from an electromagnetic field generated by the RFID reader 200.

In addition to the function of reading information stored in the RFID tag 160, the RFID reader 200 receives connection information necessary for short-range communication connection from a management operation server managing the short-range wireless communication device 300 and periodically broadcasts at a radio frequency. do.

In this case, the access information required for the short-range communication connection may vary depending on the communication environment of the Internet service area where the RFID reader 200 is located.

The short range wireless communication device 300 may be an access point (AP) for a short range communication connection.

For example, in the case of Wi-Fi (WiFi) that is a wireless LAN, the short-range wireless communication device 300 becomes a Wi-Fi access point, and in the case of short-range communication using Bluetooth, a Bluetooth access point and a Zigbee access point in the case of short-range communication using Zigbee. Can be.

Therefore, when the personal portable terminal 100 enters the Internet service area where the RFID reader 200 is located, the access information necessary for short-range communication connection broadcasted from the RFID reader 200 is received through the RFID tag 160, In addition, by activating the short-range wireless communication module attempts to access the short-range wireless communication device (300). In response to this, when the connection is allowed from the short range wireless communication device 300, the personal portable terminal 100 accesses the Internet 400 through short range wireless communication.

As described above, a configuration of the personal portable terminal 100 for performing short-range communication without user setting operation using RFID technology will be described in detail with reference to FIG. 2.

Referring to FIG. 2, the personal portable terminal 100 according to an exemplary embodiment of the present invention may include a control unit 110, a wireless communication unit 120, a user input unit 130, a power supply unit 140, and a memory for controlling all operations. 150, an RFID tag 160, an RFID tag memory 170, and a display unit 180.

The wireless communication unit 120 includes one or more components that enable wireless communication between a terminal and a wireless communication system, or wireless communication between two terminals. For example, the wireless communication unit 120 may include a broadcast receiving module 122, a mobile communication module 124, a wireless internet module 126, and a short range communication module 128.

The broadcast receiving module 122 is a module for providing terrestrial broadcasting or satellite broadcasting. The broadcast receiving module 122 receives related information about a terrestrial or satellite broadcasting channel from an external broadcasting management server. The related information about the broadcast channel may be broadcast channel information, a broadcast program, and additional information.

The mobile communication module 124 is for providing a voice / text call related service in association with a mobile communication network, and transmits / receives a radio signal with at least one of a device station, an external terminal, or a server on the mobile communication network. Here, the wireless signal may include various types of data according to transmission and reception of a voice call signal, a video call call signal, or a text / multimedia message.

The wireless internet module 126 is a module for wireless internet access.

The short range communication module 128 is a module for connecting to a short range wireless communication device to enable short range communication, and may include Wi-Fi, Bluetooth, Zigbee, and infrared communication (IrDA). have.

The user input unit 130 generates input data for the user to control the operation of the personal portable terminal 100. The user input unit 130 may be implemented as a keypad, a touch pad, a jog wheel, or the like.

The power supply unit 140 supplies power required for the operation of each component of the personal portable terminal 100, and the display unit 180 visually displays and outputs information processed by the controller 110.

The memory 150 may store an application program of a service provided through the personal portable terminal 100 and may temporarily store data input and output through the wireless communication unit 120.

The RFID tag 160 has a built-in electronic chip and an antenna to which predetermined information is input, and transmits predetermined information input to the electronic chip at a radio frequency through an antenna, and receives an external radio frequency through an antenna to receive an RFID tag memory 170. ).

The RFID tag 160 basically stores an identification number for the personal mobile terminal 100, stores activation information for activating a short-range communication module as related information about a communication environment, and is required for short-range communication connection from the outside. When the access information is received, it is stored in the RFID tag memory 170.

The RFID tag memory 170 may be implemented as an EEPROM or a flash memory to update the access information received by the RFID tag 160.

The controller 110 typically controls the overall operation of the personal portable terminal. For example, perform related control and processing for voice calls, data communications, video calls, and the like.

In particular, the controller 110 according to an embodiment of the present invention performs the process shown in FIG. 3.

First, it monitors whether access information necessary for short-range communication connection is received by the RFID tag 160, and selectively activates / deactivates the short-range communication module 128 according to the reception (S100).

That is, when the access information necessary for the short-range communication connection is not received by the RFID tag 160, the short-range communication module is deactivated in an off state, and when the access information necessary for the short-range communication connection is received by the RFID tag 160, The controller 110 reads the access information and the activation information received through the RFID tag 160 from the RFID tag memory 170 and recognizes the read information (S110 and S120).

Subsequently, if there is access information necessary for short-range communication connection among the read information, the controller 110 determines the type of short-range communication that can be communicated from the access information (S130 and S140).

If the type of short-range communication is determined through the determination, the activation information is transmitted to the corresponding short-range communication module 128 to be activated (S150).

For example, when the WiFi-related connection information is received by the RFID tag 160, the RFID tag memory 170 is accessed to recognize the detailed type of the local area communication as WiFi and to activate the local area communication. Enable the WiFi communication module.

As another example, when Bluetooth-related connection information is received by the RFID tag 160, the previously activated WiFi short-range communication module may be deactivated, and the Bluetooth communication module may be activated according to the above operation.

After activation, the control unit 110 according to an embodiment of the present invention performs the short-range communication connection by setting the connection information stored in the RFID tag memory 170 as a communication parameter (S160, S170).

After terminating the short-range communication connection, the short-range communication module is deactivated in the off state, but when the personal portable terminal 100 is still located in the communication area of the RFID reader (200 of FIG. 1), the RFID tag 160 is connected to the RFID reader ( Since the connection information is periodically received from 200 of FIG. 1, the short range communication module 128 may be activated again.

Therefore, the controller 110 determines whether the connection information recently received from the RFID tag 160 is identical to the connection information recorded in the RFID tag memory 170, and determines whether the connection information is duplicated, and the connection for the short-range communication connection that has been terminated just before. Information may be duplicated to prevent the local area communication module 128 from being reactivated.

In addition, the controller 110 sets the access information stored in the RFID tag memory 170 to be valid only for a specific time, and activates the short-range communication module 128 for a specific time, and after the specific time, the short-range communication module 128 ) Can be deactivated.

Hereinafter, a process of performing short-range communication without setting by a user using RFID technology in the short-range communication system described above will be described in various embodiments.

First embodiment

4 is a signal flowchart of a short range communication control system using RFID according to a first embodiment of the present invention, and FIG. 7 is a diagram illustrating WiFi connection information provided in a process according to a first embodiment of the present invention.

Referring to FIG. 4, a method for controlling short-range communication according to a first embodiment of the present invention relates to a Wi-Fi connection, which is a type of WLAN in short-range wireless communication.

First, the Wi-Fi access point (WiFi) 330 and the RFID reader 320 receive and set connection information (hereinafter, referred to as 'WiFi connection information') required for the WiFi connection from the management operation server 340 (S310, S312). ).

Here, the management operation server 340 manages all of the Wi-Fi access points 330, which may be provided in plural, and manages the connection information required to connect to each Wi-Fi access point 330. In addition, the RFID reader 320 has a function of transmitting necessary information. The management operation server 340 may be provided as a separate equipment, and may be replaced by a personal device according to the network configuration environment.

As shown in FIG. 7, access information required for WiFi connection includes header information 610, a service set identifier (SSID) 620, an encryption type 630, an encryption key 640, and a channel number 650. It may include.

In detail, the header information 610 is information indicating a type of short-range communication, and the SSID 620 is a 32- byte long unique identifier appended to each header information 610 to the WiFi access point 330. Represents a network name. The encryption method type 630 indicates a security method of the encryption key 640 used by the WiFi access point 330.

Then, the RFID reader 210 transmits the set WiFi access information through a radio frequency (S314). In this case, the RFID reader 320 broadcasts the WiFi access information and a command for recording WiFi access information on the RFID tag mounted in the personal portable terminal 310.

When the RFID reader 320 is driven, an electromagnetic field is formed by the power energy generated by the antenna of the RFID reader 320. The range of the electromagnetic field becomes a communication area (hereinafter, a communication area).

When the personal portable terminal 310 enters into the communication area (S316), the personal portable terminal 310 receives the WiFi connection information transmitted from the RFID reader 320 through the RFID tag and stores it in the RFID tag memory ( S320).

In addition, as the RFID tag is driven, the personal terminal 310 accesses the RFID tag memory to recognize the WiFi access information received from the RFID reader 320 and activation information for activating the short-range communication module. Afterwards, the activation information is transmitted to the corresponding WiFi module to activate the WiFi module (S322).

Thereafter, the personal mobile terminal 310 sets the access information as a communication parameter and attempts to access the Wi-Fi access point 330 through the activated WiFi module (S324).

In response, if the Wi-Fi access point 330 allows access to the personal portable terminal 310 (S326), the personal portable terminal 310 may subsequently access the Internet 350 (S328).

According to the first embodiment described above, the personal mobile terminal 310 can connect with the Internet 350 through WiFi communication. If the connection information is not received in the RFID tag of the personal mobile terminal 310 during this connection process, Since the communication module is kept in the off state, standby power consumption of the personal portable terminal 310 can be reduced.

In addition, when the personal portable terminal 310 enters the communication area with the RFID reader 320, there is no need to check whether the short range communication is possible by directly activating the short range communication module by the user's setting operation, and also using the short range communication. In order to do this, there is no need to check and configure the information about the network connection.

Second embodiment

5 is a signal flowchart of a short range communication control system using RFID according to a second embodiment of the present invention.

As shown in FIG. 5, the method for controlling short-range communication according to the second embodiment of the present invention relates to a Bluetooth connection during short-range wireless communication.

In a second embodiment, a Bluetooth access point (Bluetooth AP: 430) is provided as a short range wireless communication device for Bluetooth communication, and the Bluetooth access point 430 is connection information necessary for Bluetooth connection from the management operation server 440. (Hereinafter referred to as Bluetooth connection information) is set (S410).

Here, the management operation server 440 manages the access information required to access the Bluetooth access point 430 and the Bluetooth access point 430.

The Bluetooth access information may include, as main information, a type of near field communication, a MAC address of the Bluetooth access point 430, and a PIN code which is a password required for Bluetooth connection.

In the second embodiment, the RFID reader 420 receives and sets the Bluetooth connection information from the management operation server 440 and transmits the information through the radio frequency (S412 and S414).

Then, when the personal portable terminal 410 having the RFID tag enters the communication area of the RFID reader 420, the personal portable terminal 410 operates in the same manner as in the first embodiment, and the personal portable terminal 410 is connected to the Internet 450 via Bluetooth. Will communicate with.

Hereinafter, descriptions of overlapping operations will be omitted.

Third embodiment

6 is a signal flowchart of a short range communication control system using RFID according to a third embodiment of the present invention.

The method for controlling short-range communication according to the third embodiment relates to a zigbee connection during short-range wireless communication, and is performed in the same manner as the operation process described in the second embodiment except for only the communication type.

The redundant description of the operation will be omitted, and only a different configuration will be described. The short range wireless communication device according to the third embodiment becomes a ZigBee access point (ZigBee AP: 530), and the short range embedded in the personal mobile terminal 510 is described. The communication module may be limited to the Zigbee module.

In addition, access information (hereinafter, ZigBee access information) required for ZigBee connection may include MAC information, an encryption key, and information on the type of encryption method of the ZigBee AP 530 as main information.

Therefore, according to the third exemplary embodiment, the personal mobile terminal 510 may access the Internet 550 without a user's setting operation through Zigbee communication.

The above description is merely illustrative of the present invention, and various modifications may be made by those skilled in the art to which the present invention pertains without departing from the spirit of the present invention. Therefore, the embodiments disclosed in the specification of the present invention are not intended to limit the present invention. The scope of the present invention should be construed by the claims below, and all techniques within the scope equivalent thereto will be construed as being included in the scope of the present invention.

In the near field communication using the conventional RFID technology, an RFID reader is installed in the terminal to not only generate power consumption of the terminal, but also require additional user involvement in the short range communication connection. Receiving access information for short-range communication from the device enables the short-range communication module to perform communication, thereby reducing power consumption of the terminal and at the same time, the user does not need to activate the short-range communication by directly operating the terminal. In addition, it is possible to provide a service for providing convenience to the user and utilizing short-range communication technology more easily and effectively through a personal portable terminal.

1 is a block diagram showing the configuration of a short-range communication control system using RFID according to an embodiment of the present invention.

2 is a diagram illustrating an internal configuration of a personal portable terminal applied to a short range communication control system using RFID according to an exemplary embodiment of the present invention.

3 is a signal flowchart of a personal portable terminal applied to a short-range communication control system using RFID according to an embodiment of the present invention.

4 is a signal flowchart of a short range communication control system using RFID according to a first embodiment of the present invention;

5 is a signal flowchart of a short range communication control system using RFID according to a second embodiment of the present invention;

6 is a signal flowchart of a short range communication control system using RFID according to a third embodiment of the present invention;

7 is a diagram illustrating WiFi connection information provided in a process according to a first embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100 and 310: personal mobile terminal 160: RFID tag

200, 320: RFID reader 300: short range wireless communication equipment

400, 350: Internet 110: control unit

120: wireless communication unit 122: broadcast receiving module

124: mobile communication module 126: wireless Internet module

128: short-range communication module 130: user input unit

140: power supply unit 150: memory

170: RFID tag memory 180: display unit

330: WiFi AP 340: management operations server

430: Bluetooth AP 530: Zigbee AP

Claims (17)

In the short-range communication control system capable of internet access through short-range wireless communication equipment, An RFID reader for periodically transmitting access information necessary for connecting the short-range communication at a radio frequency; And Upon entering the wireless communication area generated by the RFID reader, an RFID tag for storing the access information in an RFID tag memory through a radio frequency transmitted from the RFID reader, and is activated as the information is received from the RFID tag. A personal portable terminal equipped with a short-range communication module that attempts a communication connection to the short-range wireless communication device with the access information stored in the RFID tag memory. Short-range communication control system using a radio frequency recognition technology comprising a. The method of claim 1, The RFID reader, Short-range communication control system using a radio frequency identification technology, characterized in that provided in the Internet service zone (zone) for providing an Internet access service through the short-range wireless communication equipment. The method of claim 1, The RFID reader, Local area communication control system using a radio frequency identification technology, characterized in that for receiving the connection information necessary for connecting the short-range communication from the management operation server that manages the connection information for the connection with the short-range wireless communication equipment. The method of claim 1, The RFID tag, A near field communication control system using radio frequency recognition technology, characterized in that the chip (read) that can be read (write). The method of claim 1, The personal mobile terminal, The short-range wireless communication control system using the radio frequency identification technology characterized in that the type of the short-range communication that can communicate from the access information stored in the RFID tag memory, and activates the short-range communication module according to the determined type. In a terminal that can be connected to the Internet through a short-range wireless communication device, A short range communication module for connecting to the short range wireless communication device to enable short range communication; When entering an Internet service zone providing an Internet access service through the short range wireless communication device, the RFID device receives access information necessary for short range communication connection from an RFID reader located in the Internet service area and stores the access information in an RFID tag memory. tag; And Monitor the reception of the RFID tag information and selectively activate / deactivate the short range communication module according to the reception of the information. When the short range communication module is activated, the short range wireless communication is performed based on the access information stored in the RFID tag memory. Control unit to control access to equipment Personal portable terminal comprising a. The method of claim 6, The RFID tag, Personal portable terminal, characterized in that consisting of a chip capable of reading (read) / write (write). The method of claim 6, The control unit, Prior to activating the short-range communication module, the personal portable terminal, characterized in that the type of short-range communication that can communicate from the connection information stored in the RFID tag memory, and activates the short-range communication module according to the determined type. The method of claim 6, The control unit, After terminating the short-range communication connection, In order to prevent duplicate connection information for a short-distance short-range communication connection previously received and reactivating the short-range communication module, whether recently received connection information of the RFID tag is the same as the connection information stored in the RFID tag memory. Personal portable terminal, characterized in that for determining whether or not duplication. The method of claim 6, The control unit, Set the access information stored in the RFID tag memory to be valid only for a specific time, and activate the short-range communication module during the specific time, and control to deactivate the short-range communication module after the specific time. terminal. The method of claim 6, The short range communication module, Personal mobile terminal comprising at least one of Wi-Fi, Bluetooth, Zigbee. In the short-range communication control method for providing an Internet connection through a short-range wireless communication device in a personal portable terminal, Periodically transmitting, at a radio frequency, access information necessary for a short-range communication connection by an RFID reader provided in the Internet service zone capable of short-range wireless communication; When the personal portable terminal enters the communication area of the RFID reader, the RFID tag mounted on the personal portable terminal receives connection information necessary for the short-range communication connection from the radio frequency transmitted from the RFID reader, thereby reading the RFID tag memory. Storing in; And When the RFID tag receives the connection information necessary for the short-range communication connection, the personal portable terminal activates a short-range communication module at the same time, and then communicates with the short-range wireless communication device based on the connection information stored in the RFID tag memory. Steps to try Short-range communication control method using a radio frequency recognition technology comprising a. The method of claim 12, Activating the local area communication module, And determining the type of short-range communication that can be communicated from the access information stored in the RFID tag memory and activating the short-range communication module according to the determined type. In the near-field communication control method of a personal portable terminal capable of internet access through a short-range wireless communication device, Monitoring whether or not connection information necessary for the short-range communication connection is received by the RFID tag mounted on the personal portable terminal; Storing the access information in an RFID tag memory when the access information necessary for the short-range communication connection is received in the RFID tag; Determining a type of short-range communication from the access information stored in the RFID tag memory; Activating a corresponding short range communication module according to the determined type; And If the corresponding short-range communication module is activated, attempting a communication connection to the short-range wireless communication device based on the access information stored in the RFID tag memory. Short-range communication control method of a personal portable terminal comprising a. The method of claim 14, The short range communication module, The method of controlling short-range communication of a personal portable terminal, comprising at least one of Wi-Fi, Bluetooth, and Zigbee. The method of claim 14, After terminating the short-range communication connection, In order to prevent duplication of connection information for a short-distance short-range communication connection received earlier, the short-range communication module is activated again. Steps to determine whether duplicates The short-range communication control method of the personal portable terminal further comprising. The method of claim 14, Setting access information stored in the RFID tag memory to be valid only for a specific time, activating the short-range communication module during the specific time, and deactivating the short-range communication module after the specific time. The short-range communication control method of the personal portable terminal further comprising.

Images