KR20050101491A - Data transmission method between mobile communication terminals - Google Patents

Abstract

The present invention relates to a data transmission method between mobile communication terminals.

The present invention includes the steps of activating a peer to peer (P2P) service in a transmitting mobile terminal to select contents and a receiver; Requesting a relay from a base station using an available control channel to connect a P2P service between a transmitting mobile terminal and a receiving mobile terminal; Allocating the same traffic channel between terminals at the base station; And transmitting data in burst units from the transmitting mobile terminal to the receiving mobile terminal using the assigned traffic channel.

Accordingly, the present invention provides a mobile communication system in which a time division multiple access (TDMA) scheme according to European GSM (Global System for Mobile communications), which is one of the next generation mobile communication services, is available according to the relay of a base station. Request and approval of P2P service between mobile communication terminals in the same service area using FACCH channel, which is a control channel, and accordingly, ring tone, music file, image between each terminal using same traffic channel assigned by the base station By transmitting content data such as video, various data, and the like, data can be freely transmitted and received between mobile communication terminals without an infrared communication module or a data communication connection cable.

Description

DATA TRANSMISSION METHOD BETWEEN MOBILE COMMUNICATION TERMINALS}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a mobile communication terminal, and more particularly to a mobile communication system to which a time division multiple access (TDMA) scheme according to the European type Global System for Mobile communications (GSM), which is one of the next generation mobile communication service schemes, is applied. Request and approval of P2P service is performed between mobile communication terminals in the same service area by using the FACCH channel, which is an available control channel according to the relay of the base station, and accordingly, between each terminal using the same traffic channel allocated by the base station. The present invention relates to a data transmission method between mobile communication terminals for freely transmitting content data such as ringtones, music files, images, videos, and various data.

Recently released mobile communication terminal has been increasing in internal memory capacity, and after storing the contents such as ringtones, music files, images, videos, various data downloaded through data communication to transfer to other mobile communication terminals Of course, uploading to a computer is also possible.

In this case, as a method for transmitting content stored in the mobile communication terminal to another mobile communication terminal, the content data is transmitted and received between the mobile communication terminals using infrared communication (IrDA, Infrared Data Association) or serial communication (Serial). A method of uploading content data to a computer and then downloading it to another mobile communication terminal through serial communication is used.

However, when transmitting and receiving content data between mobile communication terminals as described above, when using infrared communication, the content data can be transmitted and received only between terminals equipped with a module supporting the same infrared communication mode, so that the contents can be exchanged between terminals of different manufacturers. There was a problem in that data transmission and reception were impossible.

In addition, when using the serial communication, the user has to prepare a serial communication cable in an environment with a computer, there is a problem that it is cumbersome and inconvenient to use and to purchase a cable separately.

Accordingly, the present invention has been proposed to solve the above-mentioned problems, and time division multiple access (TDMA) scheme conforming to the European-style Global System for Mobile communications (GSM), which is one of the next generation mobile communication service schemes, In the applied mobile communication system, request and approval of P2P service is performed between mobile communication terminals in the same service area by using the FACCH channel, which is an available control channel according to the relay of the base station, and accordingly the same traffic allocated by the base station. An object of the present invention is to provide a method for transmitting content data such as ringtones, music files, images, videos, and various data between terminals using channels.

The present invention for achieving the above object comprises the steps of activating a peer-to-peer (P2P) service in the transmitting mobile terminal to select the content and the recipient; Requesting a relay from a base station using an available control channel to connect a P2P service between a transmitting mobile terminal and a receiving mobile terminal; Allocating the same traffic channel between terminals at the base station; And transmitting data in burst units from the transmitting mobile terminal to the receiving mobile terminal using the assigned traffic channel.

Hereinafter, an embodiment according to the present invention will be described in detail with reference to the accompanying drawings.

1 is a signal flow diagram illustrating an operation process of a data transmission method between mobile communication terminals according to the present invention. As shown in FIG. 1, a peer-to-peer (P2P) service is activated in a transmitting mobile communication terminal 10 to display contents and a receiver. Selecting (S10, S11); Requesting relaying to the base station 20 using an available control channel to connect a P2P service between the transmitting mobile communication terminal 10 and the receiving mobile communication terminal 11 (S12); Allocating the same traffic channel (TCH) between the terminals 10 and 11 at the base station 20 (S13); In step S14, the transmitting mobile terminal 10 transmits burst-based data to the receiving mobile terminal 11 using the allocated traffic channel.

In general, in the time division multiple access (TDMA) method that conforms to the European-style Global System for Mobile communications (GSM), which is one of the next generation mobile communication service methods, a physical frequency such as a radio frequency (RF) channel, a TDMA frame, a time slot, etc. A logical channel is mapped to a physical channel to use a channel. The types of logical channels include a traffic channel (TCH) and a control channel (BCCH, PCH, RACH, AGCH, SDCCH, SACCH, FACCH). have.

In addition, the traffic channel transmits information such as voice (13 Kbps) and data (9.6 Kbps, 4.8 Kbps, 2.4 Kbps), and among the control channels, BCCH (Broadcast Control CHannel), PCH (Paging CHannel), and RACH (Random Access CHannel). Channels such as AGCH (Access Granted CHannel) are common control channels, and transmit / receive paging and access parameter (PCH) and access attempt (RACH) signals for control signals between a base station and a plurality of mobile communication terminals are transmitted, and SDCCH ( Channels such as Standalone Dedicated Control CHannel (SACCH), Slow Associated Control CHannel (SACCH), and Fast Associated Control CHannel (FACCH) are used to transmit and receive control information between a base station and a specific mobile communication terminal in a service area. Authentication and location registration, SACCH channel is used for system information, Mobile Assisted HandOver (MAHO), FACCH channel is used for handover.

In this case, when the mobile communication terminal exists in the service area of the base station, the FACCH channel used in the handover is in an available state, and according to the present invention, the base station relays at the base station using the FACCH channel. P2P (Peer to Peer) service is provided between each mobile communication terminal.

That is, the present invention is a control channel available between the transmitting mobile terminal 10 and the base station 20 in the mobile communication system to which the time division multiple access method according to the European GSM is applied, as shown in the network configuration shown in FIG. That is, the request and approval of the P2P service is performed using the FACCH channel, and the transmitting mobile terminal 10 transmits the transmission burst period to the uplink using the same traffic channel allocated by the base station 20. The receiving mobile communication terminal 11 transmits data by using the receiving burst section as a downlink, so that a ring tone and a music file stored in the mobile communication terminal 10 of one side without an infrared communication module or a connection cable for data communication. It is possible to transmit content data such as images, videos, and various data to the mobile communication terminal 11 of the other side.

In order to apply the present invention, the mobile communication terminals 10 and 11 should be located in a service area of a specific base station 20, and the mobile communication terminals 10 and 11 each have a wireless application protocol (WAP) protocol stack on them. As a module for providing a P2P service is mounted, communication is performed in a PPP (Point to Point) method according to the relay of the base station 20 without passing through the WAP gateway.

The base station 20 allocates the same traffic channel to each of the mobile communication terminals 10 and 11, and temporarily stores content data received from the transmitting mobile communication terminal 10, and then receives the receiving mobile communication terminal. It serves as a buffer to pass to (11).

When a user wants to transmit content data such as a ringtone, a music file, an image, a video, and various data stored in a storage area of the transmitting mobile terminal 10, the user activates a P2P service in the transmitting mobile terminal 10. (S10), the content and the receiver to be transmitted are selected (S11).

Then, the P2P service is requested to the base station 20 by using the control channel available from the transmitting mobile terminal 10, and the base station 20 receives the selected mobile terminal 11 selected as the receiver. After confirming that the service is within the service area, and performing the request and response of the P2P service with the corresponding receiving-side mobile communication terminal 11 using the available control channel when it is within the service area, the transmitting-side mobile communication The P10P service is notified to the terminal 10 and the receiving side mobile communication terminal 11 connects the P2P service (S12).

Here, since each mobile communication terminal 10 exists in the service area of the same base station 20 and does not need handover, according to the present invention, a request and approval of a P2P service are performed using the FACCH channel as the available control channel. Perform.

Then, when the P2P service is connected between each mobile communication terminal (10, 11), the base station 20 allocates the same traffic channel (traffic channel) between each terminal (10, 11) (S13), accordingly the transmitting side The mobile communication terminal 10 transmits burst data to the receiving mobile communication terminal 11 according to the relaying of the base station 20 using the allocated traffic channel (S14).

In this case, referring to a process of transmitting data in burst units in the transmitting mobile terminal 10, the module for providing P2P service mounted in the transmitting mobile terminal 10 as shown in FIG. The selected content data is converted into low data having a smaller size (S30), and then divided into data having a size of 260 bits (S31).

Then, as in the bit string processing used for normal data transmission, the 260 bits of data are sorted into 50 bits for error detection, 132 bits to include data and 78 bits to contain other data information, and then CRC for error detection. By attaching a (Cyclic Redundancy Checking) bit string (S32, S33), data in burst units is transmitted to the base station 20 according to an interleaving period allocated to the base station 20 (S34, S35).

Here, each of the mobile communication terminals 10 and 11 transmits and receives data by dividing the burst period for transmission and the burst period for reception according to the characteristics of the time division multiple access scheme. The data is transmitted to the base station 20 using only the transmission burst section on the traffic channel, and the base station 20 temporarily stores the received data and immediately allocates the traffic channel to the receiving mobile terminal 11. Data is transmitted using a burst period for reception of a picture.

Then, as shown in Fig. 4, the receiving side mobile communication terminal 11 performs the same operation as the bit string processing at the time of normal data reception, but the interleaving is performed by the receiving side mobile communication terminal 11 which received the data in burst units. After performing the operation, the CRC attached to the received data is removed (S40 to S42), and then the data is aligned in a size of 260 bits.

Then, in the module for providing P2P service mounted on the receiving side mobile communication terminal 11, the sorted data is combined, converted into larger content data, and buffered (S43, S44). When the content data reaches a predetermined size, complete data is generated and stored in the internal storage area (S45).

As described above, the present invention provides a mobile communication system in which a time division multiple access (TDMA) scheme according to the European type GSM (Global System for Mobile communications), which is one of the next generation mobile communication services, is applied. Request and approval of P2P service is performed between mobile communication terminals in the same service area by using FACCH channel, which is an available control channel according to the relay, and accordingly, ringing, between each terminal using the same traffic channel assigned by the base station By transmitting content data such as music files, images, videos, and various data, data can be freely transmitted and received between mobile communication terminals without an infrared communication module or a data communication connection cable.

1 is a signal flow diagram illustrating an operation process of a data transmission method between mobile communication terminals of the present invention.

Figure 2 is a network diagram showing an example of a network implementing the data transmission method between the mobile communication terminal of the present invention.

3 is a flowchart illustrating a process of transmitting data in units of bursts in a transmitting mobile terminal in a data transmission method between mobile communication terminals of the present invention.

4 is a flowchart illustrating a process of receiving data in burst units in a receiving mobile communication terminal in the method of transmitting data between mobile communication terminals of the present invention.

*** Description of the symbols for the main parts of the drawings ***

10: transmitting mobile terminal 11: receiving mobile terminal

20: base station

Claims (3)

Selecting a content and a receiver by activating a peer-to-peer service in a transmitting mobile terminal; Requesting a relay from a base station using an available control channel to connect a P2P service between a transmitting mobile terminal and a receiving mobile terminal; Allocating the same traffic channel between terminals at the base station; And transmitting data in burst units from the transmitting mobile terminal to the receiving mobile terminal using the assigned traffic channel. The method of claim 1, wherein the available control channel is a fast associated control channel (FACCH) channel used for handover between the mobile communication terminal and the base station. The method of claim 1, wherein connecting the P2P service comprises: checking whether a receiving mobile communication terminal selected as a receiver in a base station receiving a P2P service relay request from a transmitting mobile communication terminal is within its service area; If the check result is within its own service area, after performing the request and response of the P2P service with the receiving mobile terminal, it notifies the sending mobile terminal that the P2P service has been approved, and provides the P2P service between the mobile communication terminals. Method of transmitting data between the mobile communication terminal comprising the step of connecting.