KR100600965B1 - Method for infrared of mobile communication terminal - Google Patents

Abstract

The present invention relates to a two-way infrared communication method of a mobile communication terminal to transmit and receive data in both directions with the other terminal during the infrared communication, and stop and wait (Stop and Wait) method and a plurality of waits for packet transmission until a response is received. In an infrared communication method of a mobile communication terminal which performs data communication by using any one of the Windows methods of continuously transmitting the packet of the packet, the other party is received by receiving a packet from the other terminal to which a call path is connected. When transmitting a response to the packet reception to the terminal, if there is data to be transmitted to the counterpart terminal, it is preferable to divide the data to be transmitted into packets, and to include the response to the received packet in the packet to be transmitted to the counterpart terminal. .

Infrared communication, bidirectional communication, ACK, packet number

Description

Bidirectional infrared communication method of mobile communication terminal {METHOD FOR INFRARED OF MOBILE COMMUNICATION TERMINAL}

1 is a procedure for explaining an infrared communication method of a conventional mobile communication terminal.

Figure 2 is a schematic view showing the configuration of a mobile communication terminal is implemented a two-way infrared communication method according to the present invention.

3a and 3b schematically show the structure of a packet applied to the present invention.

4 is a flowchart illustrating a bidirectional infrared communication method of a mobile communication terminal according to an embodiment of the present invention.

5 is a flowchart illustrating a bidirectional infrared communication method of a mobile communication terminal according to another embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

10. key input, 20. display, 30. memory,

40. Audio conversion unit, 50. Wireless processing unit, 60. Infrared communication unit,

70. Control part, a, d. Header part, b, e. Data,

c, f. Tail

The present invention relates to a bidirectional infrared communication method of a mobile communication terminal, and more particularly, to a bidirectional infrared communication method of a mobile communication terminal to transmit and receive data in both directions with a counterpart terminal during infrared communication.

The conventional mobile communication terminal transmits data (MP3, ring tone, picture, etc.) to another mobile communication terminal or a computer by using infrared communication, or receives data transmitted by another mobile communication terminal or a computer.

1 is a flowchart illustrating an infrared communication method of a conventional mobile communication terminal.

First, when there is data to be transmitted from the first terminal to the second terminal, the first terminal requests to connect to the second terminal in a call, and the second terminal received a request to connect in a call from the first terminal determines whether data can be transmitted. Set up a connection with the first terminal by sending.

As described above, when a call is established with the second terminal, the first terminal divides data into packets and starts transmission from the first packet, but transmits the next packet after receiving the ACK from the second terminal.

When all data transmission from the first terminal to the second terminal is completed in the manner described above, the second terminal transmits the data to the first terminal.

As described above, in the related art, when two mobile communication terminals exchange data with each other using infrared communication, first, all data is transmitted from one side, and after the processing is completed, the other side can transmit data from the other side. It is. Accordingly, there is a problem in that the data exchange rate is slow in the related art.

The present invention has been made to solve the above-described problem, when receiving a packet from the counterpart terminal and responding to it (ACK), if there is data to be transmitted to the counterpart terminal, by transmitting the data as well as the response (ACK) Another object of the present invention is to provide a two-way infrared communication method of a mobile communication terminal capable of increasing a data exchange rate.

According to an embodiment of the present invention, a bidirectional infrared communication method of a mobile communication terminal provides a stop and wait method and a plurality of packets continuously waiting for a packet transmission until a response is received. In the infrared communication method of a mobile communication terminal which performs data communication by using any one of a Windows method for transmitting, a packet is sent to the other terminal according to the reception of a packet from the other terminal to which a call path is connected. When transmitting a response to the reception, if there is data to be transmitted to the counterpart terminal, it is preferable to divide the data to be transmitted into packets, and to include the response to the received packet in the packet to be transmitted to the counterpart terminal.

Further, when performing data communication using the Windows scheme, it is preferable to include the transmission packet number and the packet number of the reception packet in the packet to be transmitted and transmit the data to the counterpart terminal.

The packet applied to the stop and wait method may include: a header including an ID of a transmitting terminal and an ID of a receiving terminal; A data unit including data to be sent to the receiving terminal; It is preferable to have a tail including an acknowledgment (ACK) indicating that the packet has been successfully transmitted from the receiving terminal.

The packet applied to the Windows system may include a header unit including an ID of a transmitting terminal, an ID of a receiving terminal, and a number of a packet to be transmitted; A data unit including data to be sent to the receiving terminal; Preferably, a tail portion including an acknowledgment (ACK) having a number of packets received from the receiving terminal for a response to the packet received from the receiving terminal.

Hereinafter, a bidirectional infrared communication method of a mobile communication terminal according to a preferred embodiment of the present invention with reference to the accompanying drawings will be described in detail.

2 is a road, a key input unit 10, a display unit 20, a memory unit 30, an audio converter 40, schematically showing a configuration of a mobile communication terminal implementing the bidirectional infrared communication method according to the present invention; The wireless processing unit 50, the infrared communication unit 60, and the control unit 70 is provided.

In such a configuration, the key input unit 10 receives an infrared communication function from a terminal user, receives data to be transmitted to the counterpart terminal, and generates a key code for inputting a telephone number and various setting values required for dialing. .

The display unit 20 displays a screen for setting infrared communication, a screen for data transmission, and the like under the control of the controller 70, and displays various states of the mobile communication terminal, information provided by the mobile communication terminal, and a mobile communication network. Displays the received text message, letters and numbers received through the key input unit 10, and the like.

The memory unit 30 stores a system operation program, a program for implementing a bidirectional infrared communication method according to the present invention, data received from a counterpart terminal through infrared communication, and various data.

The audio converter 40 processes the voice signal received through the microphone as digital voice data and transmits the digital voice data to the controller 70, or processes the digital voice data received through the wireless processor 50 to output analog voice through a speaker. Output

The wireless processor 50 transmits and receives wireless data to and from the mobile communication system by using a power source supplied from a power supply unit (not shown).

The infrared communication unit 60 exchanges data with the counterpart mobile communication terminal capable of infrared communication using infrared communication.

The controller 70 controls all functions of the mobile communication terminal. The controller 70 stores data received through infrared communication in the memory unit 30 and transmits a response (ACK) to the other terminal according to the data reception. If present, the acknowledgment (ACK) and data are transmitted together.

3A and 3B are diagrams schematically illustrating a structure of a packet applied to the present invention, and FIG. 3A is a structure of a packet applied to a stop and wait method, and FIG. 3B is applied to a Windows method. The structure of the packet.

First, a packet applied to a stop and wait method includes a header part a including an ID (or address) of a transmitting terminal and an ID (or address) of a receiving terminal, as shown in FIG. 3A. And a data portion (b) including data to be sent to the receiving terminal, and a tail (c) including a response (ACK) indicating that the packet has been successfully transmitted from the receiving terminal.

Meanwhile, as shown in FIG. 3B, a packet applied to the Windows system includes a header part including an ID (or address) of a transmitting terminal, an ID (or address) of a receiving terminal, and a packet number (d). ), A data unit (e) containing data to be sent to the receiving terminal, and a tail including an acknowledgment (ACK) having a number of packets received from the receiving terminal for receiving a response to the packet received from the receiving terminal. It is provided with a part (f).

4 is a flowchart illustrating a bidirectional infrared communication method of a mobile communication terminal according to an embodiment of the present invention, and is applied when data is transmitted and received through a stop and wait method.

First, when there is data to be transmitted from the first terminal to the second terminal, the first terminal transmits its ID along with a command for requesting connection by call to transmit data to the second terminal according to the key operation of the terminal user. The second terminal, which has been requested to make a call by the first terminal, establishes a connection with the first terminal by transmitting whether data can be transmitted or not.

As described above, when a call path between the first terminal and the second terminal is connected, the first terminal divides the data to be transmitted into packets and starts transmission from the first packet.

As described above, the second terminal receiving the packet transmitted by the first terminal should send an acknowledgment (ACK) to the packet reception to the first terminal. If present, the acknowledgment (ACK) and data are transmitted together.

That is, when there is data to be transmitted to the first terminal when the second terminal sends an acknowledgment (ACK) to the packet reception to the first terminal, the second terminal divides the data to be transmitted into packets and sends the packet from the first terminal to the packet to be transmitted to the first terminal. An acknowledgment (ACK) indicating successful reception is included and transmitted to the first terminal.

For example, when the second terminal receives the second packet from the first terminal and transmits an acknowledgment (ACK) to the second terminal received from the first terminal, there is data to be transmitted to the first terminal. Then, the second terminal divides the data to be transmitted to the first terminal into packets, and attaches an acknowledgment (ACK) to the packet indicating that the second packet has been successfully received from the first terminal, and transmits the packet to the first terminal.

Meanwhile, the first terminal receiving the response (ACK) together with data from the second terminal includes the response (ACK) for the first packet received from the second terminal in the third packet, which is the next transmission packet, to the second terminal. send.

As described above, when sending an acknowledgment (ACK) in response to the received packet to the counterpart terminal, the data to be transmitted to the counterpart terminal is also transmitted, thereby making bidirectional data communication.

On the other hand, when the last packet is transmitted, an indication that the transmitted packet is the last packet is inserted so that the other terminal can recognize that there are no more packets to receive.

When all the data transmission is completed between the two terminals through the above-described process, the terminal receiving the response (ACK) to the last transmission packet from the counterpart terminal requests to disconnect the call to the other terminal, disconnection by call The counterpart terminal receiving the request releases the connected call path according to the call disconnection request.

FIG. 5 is a flowchart illustrating a bidirectional infrared communication method of a mobile communication terminal according to another embodiment of the present invention, and is applied when data is transmitted / received through the Windows method.

First, when there is data to be transmitted from the first terminal to the second terminal, the first terminal sends its ID along with a command for requesting connection through a call to transmit data to the second terminal according to a key operation of the terminal user. The second terminal receiving the connection request from the first terminal through the call transmits whether data can be transmitted and establishes a connection with the first terminal.

As described above, when a call path between the first terminal and the second terminal is connected, the first terminal divides the data to be transmitted into packets and continuously transmits the divided packet to the second terminal, which is transmitted to the second terminal. The packet contains a packet number indicating which packet is the packet.

Accordingly, the second terminal receiving the packet transmitted by the first terminal can determine the number of packets received from the first terminal based on the packet number included in the packet.

As described above, the second terminal receiving the packets continuously transmitted by the first terminal should send an acknowledgment (ACK) to each received packet to the first terminal, which responds to each received packet to the first terminal. If there is data to be transmitted to the first terminal when sending (ACK), the data to be transmitted to the first terminal is transmitted along with the response (ACK).

That is, when there is data to be transmitted to the first terminal when the second terminal sends an acknowledgment (ACK) to a packet continuously received from the first terminal, the second terminal divides the data to be transmitted into packets, and the packet is transmitted to the packet to be transmitted to the first terminal. The packet number indicating the number of packets and the packet number of the received packet indicating the response (ACK) to the number of received packets are included and transmitted to the first terminal.

As described above, when the acknowledgment (ACK) to the packet received from the first terminal is included in the packet to be transmitted to the first terminal, to indicate the response (ACK) to which received packet (ACK). The packet number of the packet received from the second terminal is attached and sent.

For example, when the second terminal receives a second packet from the first terminal and transmits an acknowledgment (ACK) to the first terminal, if there is data to be transmitted to the first terminal, the second terminal returns to the first terminal. Divide the data to be sent into packets, include packet number 1 indicating that the packet is the first packet in the header portion of the packet to be transmitted to the first terminal, and reply (ACK) indicating that the packet has been successfully received from the first terminal in the tail portion. Is included in the packet number 2 of the received packet and transmitted to the first terminal.

Meanwhile, the first terminal receiving the response (ACK) together with data from the second terminal includes the response (ACK) for the first packet received from the second terminal in the third packet, which is the next transmission packet, to the second terminal. send.

That is, the header part of the third packet transmitted from the first terminal to the second terminal includes packet number 3 indicating that the packet transmitted to the second terminal is the third packet, and the response (ACK) of the tail portion is received from the second terminal. Packet number 1 of the received packet is included and transmitted.

When all the data transmission is completed between the two terminals through the above-described process, the terminal receiving the response (ACK) to the last transmission packet from the counterpart terminal requests to disconnect the call to the other terminal, disconnection by call The counterpart terminal receiving the request releases the connected call path according to the call disconnection request.

The bidirectional infrared communication method of the mobile communication terminal of the present invention is not limited to the above-described embodiments, and may be variously modified and implemented within the range allowed by the technical idea of the present invention.

According to the bi-directional infrared communication method of the mobile communication terminal of the present invention as described above, when receiving a packet from the counterpart terminal, when there is data to be transmitted to the counterpart terminal when sending a response (ACK) to the counterpart terminal By transmitting not only an acknowledgment (ACK) but also data to be transmitted, the data exchange rate can be increased.

Claims (4)

Infrared communication of a mobile communication terminal performing data communication using either a stop and wait method of waiting for a packet until a response is received or a Windows method of continuously transmitting a plurality of packets. In a way, When transmitting a response to the packet reception to the counterpart terminal according to the packet reception from the counterpart terminal connected to the call path, if there is data to be transmitted to the counterpart terminal, the data to be transmitted is divided into packets, and the packet is transmitted to the received packet. And a response to the packet to be transmitted to the counterpart terminal. The method of claim 1, wherein when data communication is performed using the Windows scheme, a transmission packet number and a packet number of the reception packet are included in the packet to be transmitted to the counterpart terminal. Two-way infrared communication method of the mobile communication terminal. The packet of claim 1, wherein the packet is applied to the stop and wait method. A header unit including an ID of a transmitting terminal and an ID of a receiving terminal; A data unit including data to be sent to the receiving terminal; And a tail including an acknowledgment (ACK) indicating that the packet has been successfully transmitted from the receiving terminal. The method of claim 1, wherein the packet applied to the Windows scheme, A header unit including an ID of a transmitting terminal, an ID of a receiving terminal, and a number of packets to be transmitted; A data unit including data to be sent to the receiving terminal; And a tail including a response (ACK) having a number of packets received from the receiving terminal for a response to the packet received from the receiving terminal.

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