KR100779901B1 - Mobile terminal having using zigbee communication function and data service method using the mobile terminal - Google Patents

Abstract

A portable terminal mounted with a ZigBee communication function and a data service method using the terminal are provided to conduct a data service without using an existing mobile communication network in a designated short-range place or range, thereby cutting down data service charges or using the service free of charge. A mobile communication module performs signal processing in accordance with a predetermined mobile communication method in the first mode. A ZigBee communication transceiver(10) transceives a signal in accordance with a ZigBee communication method in the second mode. A display(22) displays a lot of data information. A storage(25) outputs stored user data and program data to a processor(21). Under the control of the processor(21), a peripheral terminal mounted with a ZigBee communication function is searched within a predetermined area while a ZigBee communication network is formed with the peripheral terminal, and a data message is received from the peripheral terminal, then information on a sender who sends the data message is compared with user data inside a terminal(100) to display the data message selectively.

Description

Mobile terminal having a Zigbee communication function and a data service method using the mobile terminal {Mobile terminal having using Zigbee communication function and Data service method using the mobile terminal}

BRIEF DESCRIPTION OF THE DRAWINGS In order to better understand the drawings cited in the detailed description of the invention, a brief description of each drawing is provided.

1 illustrates an internal structure of a terminal capable of Zigbee communication according to an embodiment of the present invention.

FIG. 2 is a block diagram illustrating a detailed configuration of a transceiver and a processor shown in FIG. 1.

Figure 3 shows the structure of the Wi-Fi (WIPI) S / W platform according to an embodiment of the present invention.

4 illustrates a wireless network between terminals according to an embodiment of the present invention.

5 shows a communication flowchart of a terminal based on Zigbee communication according to an embodiment of the present invention.

6 is a flowchart illustrating internal application software for transmitting and receiving a terminal according to an embodiment of the present invention.

The present invention relates to ZigBee communication, and more particularly, to a portable terminal equipped with a ZigBee communication function and a data service method using the same.

Zigbee is one of the short range wireless network standards. It is a technology for implementing near field communication and ubiquitous computing in a home or office or a local area. ZigBee communication devices can transmit data at speeds of 250 Kbps within a 100-meter radius, and the mesh network architecture allows about 65,000 devices to be connected to a single wireless network. ZigBee is the most suitable home network solution because of its small size, low power and low price.

Meanwhile, data communication between the portable terminal and the portable terminal is a paid service using a mobile communication network including a base station. Mobile communication networks are currently established by a plurality of mobile communication companies, and each mobile communication company provides services such as a call service, a short message service, and a data service through the mobile communication network. Accordingly, many mobile terminal users have a problem in that they have to use a paid service for transmitting and receiving data even in a local range such as a school, a hospital, or a specific place or building.

Accordingly, a technical problem of the present invention is to provide a portable terminal equipped with a ZigBee communication function for enabling free data service in a short range communication or a local range by installing a ZigBee communication function in a portable terminal, and a data service method using the terminal. To provide.

A portable terminal equipped with a Zigbee communication function of the present invention for achieving the above technical problem comprises a mobile communication module, a Zigbee communication transceiver, a display unit, a storage unit, and a processor. The mobile communication module performs signal processing according to a predetermined mobile communication method in a first mode. The Zigbee communication transceiver transmits and receives a signal according to the Zigbee communication scheme in the second mode. The display unit displays various data information. The storage unit outputs the stored user data and program data to the processor. The processor controls operations of the mobile communication module, the Zigbee communication transceiver, and the display unit. The portable terminal searches for a peripheral terminal equipped with a Zigbee communication function within a predetermined area, forms a Zigbee communication network with a peripheral terminal equipped with the Zigbee communication function, under a control of the processor, and transmits data from the peripheral terminal. A message is received and the information of the sender who sent the data message is compared with the user data inside the terminal to selectively display the data message.

The mobile communication module demodulates an RF signal received through the mobile communication antenna, a mobile communication antenna for transmitting and receiving an RF signal, and an RF signal received through the mobile communication antenna, and outputs the command or data generated by a user's button manipulation to the processor. Or an RF processor for modulating a signal output from the processor into an RF signal, and an audio processor for processing audio data input and output through the processor under control of the processor. In addition, the processor is preferably equipped with a software platform based on the Wireless Internet Platform for Interoperability (WIPI) for performing signal processing according to the Zigbee communication method.

According to another aspect of the present invention, there is provided a data communication method of a terminal equipped with a Zigbee communication function, the method including: searching for a terminal equipped with a peripheral Zigbee communication function; (b) forming a Zigbee communication network with a terminal equipped with the Zigbee communication function; (c) receiving a data message from the terminal; (d) comparing the sender's information with the user data in the terminal; And (e) selectively displaying the data message based on the comparison result.

The data communication method includes the steps of: (f) designating a receiver based on user data inside the terminal; And (g) transmitting the data message to the designated recipient in a Zigbee communication manner.

In order to fully understand the present invention, the operational advantages of the present invention, and the objects achieved by the embodiments of the present invention, reference should be made to the accompanying drawings that illustrate embodiments of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. Like reference numerals in the drawings denote like elements.

1 is a block diagram illustrating an internal configuration of a portable terminal 100 capable of Zigbee communication according to an embodiment of the present invention.

2 is a block diagram illustrating a detailed configuration of the transceiver 10 and the processor 21 shown in FIG. 1.

1 to 2, a portable terminal capable of Zigbee communication includes a transceiver 10 for a Zigbee communication, a processor 21, an antenna 27 for a mobile communication, an RF unit 26, and a storage unit 25. , An audio processing unit 24, a keypad 23, and a display unit 22. The transceiver 10 (see FIG. 2) includes an antenna 1 for internally performing Zigbee communication, an analog-to-digital converter (ADC) 2, a digital-to-analog converter (DAC) 3, and a digital demodulator (Digital demodulator). Demoduator (4), Digital Modulator (5), and Digital Interface (6). The digital interface 6 has an interrupter 7 and a transmit / receive buffer 8.

The transceiver 10 communicates with a terminal (hereinafter, ZigBee terminal) capable of ZigBee communication of a frequency band corresponding to 2.4 GHz. An antenna 1 serves to receive or transmit a signal in a Zigbee communication frequency band (for example, 2.4 GHz band). That is, the antenna 1 receives analog modulated data from another ZigBee terminal and transmits the analog modulated data to the ADC 2, or receives the modulated data from the DAC 3 described later and transmits the modulated data to the outside. The data may be text, voice, content, and the like. The ADC 2 receives an analog signal from the antenna 1 and converts it into a digital signal. The digital demodulator 5 demodulates the modulated data received from the antenna 1. The digital interface 6 serves to relay data signals between the transceiver 1 and the processor 21.

When the transceiver 10 receives data from the outside, the interrupter 7 of the digital interface 6 makes an interrupt request to the processor 21 in order to transfer the received data to the processor 21. The processor 21 then preferentially processes the data signal received by the transceiver 10 and then re-executes the executed program. The transmit / receive buffer 8 temporarily buffers the data received by the transceiver 10 before passing it to the processor 21. The transmit / receive buffer 8 also buffers data transmitted from the processor 21 to the transceiver 10. The digital modulator 5 receives and modulates data to be transmitted to the antenna 1 from the digital interface 6. The DAC 3 receives the output signal of the digital modulator 5 and converts it into an analog signal.

The processor 21 is equipped with a software (S / W) platform 31 based on the Wireless Internet Platform for Interoperability. The S / W platform 31 mounted on the processor 21 will be described later with reference to FIG. 3.

When the Zigbee communication is not performed, the terminal 100 operates as a terminal using a normal mobile communication network. The storage unit 25 outputs the stored user data and program data to the processor 21. The keypad 23 outputs a command or data generated by a user's button manipulation to the processor 21. The mobile communication antenna 27 transmits and receives an RF signal, and the RF unit 26 demodulates the RF signal received through the mobile communication antenna 27 and outputs the demodulated signal to the processor 21 or the processor 21. Modulates the signal output from The audio processor 24 processes audio data input and output through the processor 21 according to the control of the processor 21. The display unit 22 displays various data information under the control of the processor 21. The mobile communication module may include the mobile communication antenna 27, the RF unit 26, the storage unit 25, the audio processing unit 24, the keypad 23, and the display unit 22. .

3 shows the structure of the S / W platform 31 based on the Wi-Fi (WIPI) according to an embodiment of the present invention. WIPI is a standard that allows wireless Internet contents to be used together regardless of the mobile terminal model or the mobile carrier.It is installed in the mobile terminal and can run applications like the operating system of the PC. to provide.

Referring to FIG. 3, the processor 21 includes a S / W platform (software layer) 31 for executing a Zigbee network on a hardware layer (ie, a transceiver) 10. The software layer 31 includes an application manager 30, a WIPI application 40, a WIPI run-time engine 50, and an IEEE 802.15.4 transceiver HAL ( Transceiver HAL; 60, and IEEE 802.15.4 transceiver driver 70. The hardware layer corresponds to the IEEE 802.15.4 transceiver 10. IEEE.802.15.4 is a low-speed and low-power protocol and is the most suitable communication technology in current sensor networks. ZigBee communication is a standard of hardware and software based on IEEE.802.15.4. The Wifi application unit 40 may include a Zigbee Control Application 41, a Zigbee Custom Application 42, a Zigbee Control API 43, a Zigbee Network API 44; ) And Zigbee Support API (45). The application manager 30 manages application programs such as application download, installation, deletion, etc., and adds / updates APIs and components. The Wi-Fi run-time engine 50 serves to connect the Wi-Fi application 40 with the IEEE 802.15.4 HAL 60 as an engine for driving the Wi-Fi. The API programs 43, 44, and 45 are a collection of basic APIs for ZigBee communication supported by a platform used by an application developer. The API program may be implemented with C and Java APIs.

4 illustrates data communication between terminals according to an embodiment of the present invention. Referring to FIG. 4, a terminal equipped with a Wi-Fi platform based on Zigbee communication performs communication and data services between terminals even without an infrastructure of an existing mobile communication network. In addition, even if there is an existing mobile communication network, if there are a plurality of terminals capable of zigzag communication in a predetermined area to form a network, data service is possible using Zigbee communication. A plurality of terminals may be divided into predetermined groups to communicate between the terminals, and in the present embodiment, it is assumed that there are first to fourth groups 90, ..., 93 composed of terminals equipped with a Zigbee communication function. In addition, at least one terminal among the plurality of terminals M1, M2, ..., M34 may perform a relay role of other terminals or grouped terminals. In other words, it performs a router function. Since Zigbee communication is short-range communication, each terminal performs a router function between the first group 90 and the second group 91 or between the terminal and the terminal, thereby securing a wider data service area. . The terminals in each group can communicate with each other and can also communicate with terminals in other groups. Each terminal can store information about multiple nodes. Each terminal equipped with the Zigbee communication function checks the presence and the information of the terminal equipped with the other Zigbee communication function located in the short distance, and when the new device and the information is received, the application software analyzes the information of the data and stores it in the liquid crystal of the portable terminal. Display.

5 shows a communication flowchart of a terminal based on Zigbee communication according to an embodiment of the present invention.

Referring to FIG. 5, the terminal based on the Zigbee communication searches whether other terminals based on the Zigbee are in the vicinity in order to configure a network for communicating with nearby terminals (S501). When a terminal based on Zigbee is searched for a network around the terminal (S502), the terminal receives a data message or a control signal between the terminals (S503). When the terminal is not searched for a terminal based on Zigbee, and thus the network is not configured, the Zigbee communication mode is terminated because the short range communication cannot be performed using Zigbee (S502). The terminal determines whether a signal received from another terminal is a data message or a control signal (S504). In the case of a data message, the user information of the terminal that has transmitted the data is compared with the user information stored in the terminal that has received the data message (S505). That is, the terminal receives the data message and terminates without displaying the data when the user information is not stored in the terminal.

If the terminal equipped with the Zigbee communication function matches the user database information in the terminal which has transmitted the data and the terminal which has received the data, the terminal executes application software to display or drive the data message (S506). In the present invention, although the received data message is displayed when it matches with the user information stored in the terminal, various modifications are applicable. For example, when a terminal equipped with a Zigbee communication function receives a data message from user information not stored in the terminal, the terminal displays a message indicating the appearance of a new terminal through the display unit and receives whether or not the display is from the user. The terminal may store the user information of the new terminal and display the data message or terminate without displaying the data message depending on whether the user displays the data. For example, the message "The message came from an unregistered user. Do you want to receive it?" Is displayed. If the user enters "Yes", the message is displayed.

If the signal received by the terminal in step S504 is not a data message, it is determined to be a control signal for operating the terminal and the application software is executed to drive the terminal. The control signal directly executes an application conforming to the received control signal format as information received by the terminal from another terminal or device without having to search the user DB. For example, the control signal may be temperature, weather information or data message information for which the user does not specify whether to check the user DB.

6 is a flowchart illustrating a data communication method of a Zigbee communication terminal according to an embodiment of the present invention. Referring to FIG. 6, a terminal for data communication may be divided into a reception mode and a transmission mode. When the terminal receives the message (S601), the terminal compares whether the sender who sent the message is a user stored in the terminal (S602). If the sender is stored in a database in the terminal receiving the message (S603) and displays the message (S603), the message from the non-stored sender is determined to be an error message is terminated without displaying the message. In the transmission mode, the terminal searches for a Zigbee terminal for Zigbee communication in the near vicinity (S604). In addition, the terminal compares whether the searched other terminals are stored users in the terminal (S605). If the searched terminal is inconsistent with the user database, the terminal is switched to the initial reception mode. However, when the searched terminal matches the user database information in the terminal, the searched terminal and the network may be configured to transmit data. When another terminal device performing Zigbee communication is searched around the terminal and the network is configured, the terminal designates a receiver for transmitting a message (S606). The terminal receives the data message from the external keypad after designating the receiver (S607, S608). When the transmission is completed, the message returns to the message reception mode.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, by implementing the mobile terminal equipped with the Zigbee communication function according to the present invention, it is possible to perform a data service without using an existing mobile communication network at a designated short distance or range. In addition, since the data service is possible without using the existing mobile communication network, the data service fee can be reduced or free.

Claims (9)

A mobile communication module performing signal processing according to a predetermined mobile communication method in a first mode; A Zigbee communication transceiver for transmitting and receiving a signal according to a Zigbee communication method in a second mode; A display unit which displays various data information; A storage unit for outputting stored user data and program data to the processor; And A processor for controlling an operation of the mobile communication module, the Zigbee communication transceiver, and the display unit, Under the control of the processor, a peripheral terminal equipped with a Zigbee communication function is searched in a predetermined region, a Zigbee communication network is formed with a peripheral terminal equipped with the Zigbee communication function, and a data message is received from the peripheral terminal. And comparing the information of the sender who has sent the data message with the user data inside the terminal, and selectively displaying the data message. The method of claim 1, wherein the mobile communication module A keypad for outputting a command or data generated by a user's button manipulation to the processor; A mobile communication antenna for transmitting and receiving an RF signal; An RF unit for demodulating the RF signal received through the mobile communication antenna and outputting the demodulated signal to the processor or modulating the signal output from the processor into an RF signal; And And a Zigbee communication function comprising an audio processor configured to process audio data input and output through the processor under control of the processor. The processor of claim 1, wherein the processor includes: A portable terminal equipped with a Zigbee communication function, characterized in that a software platform based on the Wireless Internet Platform for Interoperability (WIPI) for performing the signal processing according to the Zigbee communication method. delete The mobile terminal of claim 3, wherein the portable terminal And a communication route between other terminals forming the Zigbee communication network. delete delete In the data communication method of the terminal equipped with the Zigbee communication function, (a) searching for a terminal equipped with a peripheral Zigbee communication function; (b) forming a Zigbee communication network with a terminal equipped with the Zigbee communication function; (c) receiving a data message from the terminal; (d) comparing the information of the sender who sent the data message with user data inside the terminal; And (e) selectively displaying the data message on the basis of the comparison result, wherein the data communication method of the terminal equipped with the Zigbee communication function. The method of claim 8, wherein the data communication method (f) designating a receiver based on user data inside the terminal; And (g) transmitting a data message to the designated receiver in a ZigBee communication method.

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