KR20050093389A - Method for processing multimedia data of multicasting system based wireless local area network - Google Patents

Abstract

In a system implementing a multicasting service using a WLAN-based network, multimedia data is transmitted to a central station including a wireless transceiver and a plurality of receivers including a wireless transceiver for expanding the capacity of the system without installing additional equipment. A multimedia data processing method of a configured wireless LAN-based multicasting system, comprising: inputting multimedia data to a central station; Encoding the input multimedia data; Transmitting the encoded multimedia data to a plurality of receiving stations, and transmitting a response signal for the multimedia data received only at any one of the plurality of receiving stations to the central station. A method is provided.

Description

Multimedia data processing method of wireless LAN based multicasting system {METHOD FOR PROCESSING MULTIMEDIA DATA OF MULTICASTING SYSTEM BASED WIRELESS LOCAL AREA NETWORK}

The present invention relates to a WLAN system, and more particularly, to a multimedia data processing method of a WLAN-based multicasting system.

Recently, wireless short-range communication technology related to home network systems creates a variety of application services by wirelessly connecting computers, peripheral devices, mobile phones, and home appliances that exist in a short distance and supporting communication between these devices.

In addition, this wireless short-range communication technology provides high-capacity data transmission services, such as digital music, MP3, CDP, and digital music distribution between PCs, and distribution of high-definition and high-quality real-time A / V data between digital camcorders and TVs, and between laptop PCs and projectors. Or the like. As such, in order to provide a short-range multimedia service using wireless, low cost, simple usage, low power consumption, security, and QoS are required in addition to a high speed transmission speed.

When the existing wireless LAN technology is applied, the capacity of the system is determined based on limited frequency resources and limited data throughput due to the characteristics of the wireless LAN technology. In addition, in order to guarantee the QoS of a signal, an enhanced data rate is required than in an existing system.

For example, in case of standard grade multimedia data, approximately 10Mbps is required, and in case of High Definition, 20Mbps is required. Therefore, the capacity of the system can easily reach the physical limit. When implementing the system using the system, the limited frequency resource is 200 MHz (5.15 to 5.35 GHz) and the maximum data rate is 54 Mbps. Frequency resources are allocated 20MHz band for each channel.

In order to multicast multimedia data using the conventional wireless LAN technology, the central station and the receiving station must process the data while continuously transmitting and receiving information by applying the CSMA / CA method. There is a problem in expanding the system capacity due to the problem.

In order to improve the capacity of the system, if up to 10 independent radio transmitters and receivers are secured so that the radio transmitter and receiver can correspond to each frequency channel, the capacity improvement is expected to be 10 times higher than that of the existing 1 channel system. The problem is that the price of very high.

Alternatively, it may double the CPU's ability to process data, but this also has the disadvantage of rising prices. In addition, even if the performance of the CPU is improved, the system resources are finite, so that the capacity of the system no longer improves over a certain portion.

SUMMARY OF THE INVENTION The present invention is to overcome the above-mentioned problems, and an object of the present invention is to efficiently apply a system in a system for implementing a multi-casting service using a wireless LAN-based network. To provide a multimedia data processing method of a wireless LAN-based multicasting system for expanding the capacity of the system without installing additional equipment.

One aspect of the present invention for achieving the object of the present invention is a multimedia data processing method of a wireless LAN-based multicasting system consisting of a central station including a wireless transmitting and receiving device and a plurality of receiving stations including a wireless transmitting and receiving device, (a Inputting multimedia data to the central station; (b) encoding the input multimedia data; (c) transmitting the encoded multimedia data to the plurality of receiving stations, and (d) transmitting a response signal for the received multimedia data to the central station only at any one of the plurality of receiving stations. Characterized in that.

The arbitrary receiving station is characterized in that the receiving station having the lowest reception rate of the multimedia data.

The multimedia data processing method of the wireless LAN-based multicasting system includes the steps of (e) the plurality of receiving stations to check the QoS for the received multimedia data; and (f) at the receiving stations that do not satisfy the QoS among the plurality of receiving stations. And transmitting a response signal for the received multimedia data to the central station.

Another aspect of the present invention for achieving the object of the present invention is a multimedia data processing method of a wireless LAN-based multicasting system consisting of a central station including a wireless transmitting and receiving device and a plurality of receiving stations including a wireless transmitting and receiving device, (a Inputting multimedia data to the central station; (b) encoding the input multimedia data; (c) transmitting the encoded multimedia data to the plurality of receiving stations, and (d) transmitting the response signal to the central station at predetermined time intervals to the plurality of receiving stations. Characterized in that.

And the plurality of receiving stations transmits a response signal to the received multimedia data to the central station at predetermined time intervals in a predetermined order.

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

Referring to FIG. 1, a schematic configuration diagram of a general WLAN-based multicasting system is as follows.

The general WLAN-based multicasting system illustrated in FIG. 1 includes a wireless transmit / receive central station 200 including a wireless transceiver, for example, one or more wireless transmit / receive stations 300 including a home server or a home gateway and a wireless transceiver. ). In this embodiment, the wireless transmission / reception station 300 includes a wireless LCD / PDP, a notebook computer, a PDA, a projector, and the like. Meanwhile, the wireless transmitting / receiving central station 200 is connected to a DVD, a VCR, a camcorder, an analog cable, and a digital satellite cable that provides a multimedia service.

In the WLAN-based multicasting system, multimedia data provided from the DVD, VCR, camcorder, analog cable, digital satellite cable, and the like are transmitted to the wireless transmission / reception center station 200, and the wireless transmission / reception center station 200 transmits the multimedia data. By applying the wireless LAN technology to a plurality of wireless transmission and reception stations 300 in real time, the user can transmit and receive multimedia data in real time without a separate cable connection.

2 is a schematic configuration diagram of a wireless transmit / receive center station in a WLAN-based multicasting system, and FIG. 3 is a schematic configuration diagram of a wireless transmit / receive receiver in a WLAN-based multicasting system.

The wireless transmitting and receiving central station 200 shown in FIG. 2 includes a multimedia data signal input unit 210, an MPEG encoder 220, a PHY / MAC processor 230, a wireless transceiver 240, and a CPU 250. The wireless transmission / reception receiver 300 illustrated in FIG. 3 includes a wireless transceiver 310, a BB / MAC processor 320, an MPEG decoder 330, a display 340, and a controller 350.

Referring to the operation of the wireless transmitting and receiving central station 200 of FIG. 2, the multimedia data signal input unit 210 receives multimedia data signals such as image data and audio data from various video / audio home appliances.

The multimedia data signal thus input is input to the MPEG encoder 220, and the MPEG encoder 220 is compressed to process the input multimedia data signal, and the compressed multimedia data is the PHY / MAC processor 230. (Physical Layer / Media Access Control Layer Processor), and the PHY / MAC Processor 230 performs the processing of the compressed multimedia data for connection with a wireless network.

Then, the multimedia data passed through the PHY / MAC processor 230 is transmitted to the wireless transmission and reception receiving station through the wireless transmission and reception unit 240 via a wireless network.

Referring to the operation of the radio transceiver station 300 of FIG. 3, the radio transceiver 310 receives multimedia data transmitted from the radio transceiver center 200, and the received multimedia data is the BB / MAC processor. Inputted to MPEG decoder 330 via 320 (baseband / media access control layer processor).

The MPEG decoder 330 performs a function of decoding the compressed multimedia data, and the decoded multimedia data is displayed through the display unit 340.

The controller 350 performs a function of determining the presence / absence of a multimedia data signal, an error state, and the like.

Referring to Figure 4, look at the flow of the multimedia data processing method of the wireless LAN-based multicasting system according to an embodiment of the present invention.

First, in order to transmit multimedia data to a plurality of receiving stations in real time through a WLAN-based multicasting system, the multimedia data is input to a wireless transmitting / receiving center station (S410).

The multimedia data transmitted to the wireless transceiver center is encoded by an MPEG encoder (S420).

The encoded multimedia data is transmitted to a plurality of radio receiving and receiving stations after processing for radio network transmission (S430).

Only a receiving station having the lowest reception rate among the plurality of wireless transmitting and receiving receiving stations transmits an ACK signal to the central station to indicate a good reception of multimedia data received at the wireless transmitting and receiving center station (S440).

In this way, by sending an ACK signal only to a receiving station having the lowest reception rate among a plurality of wireless transmitting and receiving receiving stations, and maintaining the continuous receiving mode state at the remaining receiving stations, it is possible to prevent an overload of data processing. The number can be expanded.

5 is a flowchart of a method for processing multimedia data in a WLAN-based multicasting system according to another embodiment of the present invention.

The method shown in FIG. 5 is similar to the method described with reference to FIG. 4 in that a receiving station transmitting an ACK signal at the time of initial setting is determined, but a signal in which a change in reception rate occurs or a reception rate is required thereafter. When a receiving station that does not satisfy the QoS of the receiver occurs, the receiving station transmits an ACK signal, which is different from the method illustrated in FIG. 4.

In order to transmit the multimedia data to a plurality of receiving stations in real time through the WLAN-based multicasting system, the multimedia data is input to the wireless transmitting / receiving center (S510).

The multimedia data transmitted to the wireless transmitting / receiving central station is encoded by an MPEG encoder (S520). The encoded multimedia data is transmitted to a plurality of radio receiving and receiving stations after processing for radio network transmission (S530).

A predetermined receiving station among the plurality of wireless transmitting / receiving receiving stations transmits an ACK signal to the central station to indicate good reception of multimedia data received at the wireless transmitting / receiving central station (S440).

Then, the process of checking the QoS for the multimedia data received by the plurality of radio transceiver stations (S550).

As a result of checking in step S550, when a receiving station that does not satisfy the QoS is detected among the plurality of wireless transmitting and receiving receiving stations, the receiving station transmits an ACK signal to the central station to inform a good reception of multimedia data. It is performed (S560).

6 is a flowchart of a method of processing multimedia data in a WLAN-based multicasting system according to another embodiment of the present invention.

The method shown in FIG. 6 is similar to the method described with reference to FIGS. 4 and 5 in that only one receiving station among the plurality of receiving and transmitting stations transmits an ACK signal to the transmitting / receiving central station. It differs from FIG. 4 and FIG. 5 in that it changes sequentially at a time interval.

In the method shown in FIG. 6, multimedia data is input to a wireless transmitting / receiving center station in order to transmit multimedia data to a plurality of receiving stations in real time through a WLAN-based multicasting system (S610).

The multimedia data transmitted to the radio transceiver center is encoded by an MPEG encoder (S620). The encoded multimedia data is transmitted to a plurality of radio receiving and receiving stations after processing for radio network transmission (S630).

Then, each of the radio transmission and reception receiving stations sequentially transmits an ACK signal to the radio transmission / reception center station at predetermined time intervals to inform good reception of the received multimedia data (S640).

What has been described above is merely an exemplary embodiment of a multimedia data processing method of a WLAN-based multicasting system according to the present invention, and the present invention is not limited to the above-described embodiment, as claimed in the following claims. Without departing from the gist of the present invention, any person having ordinary skill in the art may have the technical spirit of the present invention to the extent that various modifications can be made.

As described above, according to the multimedia data processing method of the WLAN-based multicasting system of the present invention, it is possible to expand the capacity of the WLAN-based multicasting system without installing additional equipment.

1 is a schematic configuration diagram of a WLAN-based multicasting system.

2 is a schematic configuration diagram of a wireless transmission / reception center station in a WLAN-based multicasting system.

3 is a schematic configuration diagram of a wireless transmit / receive receiving station in a WLAN-based multicasting system.

4 is a flowchart of a method for processing multimedia data in a WLAN-based multicasting system according to an embodiment of the present invention.

5 is a flowchart of a method for processing multimedia data in a WLAN-based multicasting system according to another embodiment of the present invention.

6 is a flowchart of a method for processing multimedia data in a WLAN-based multicasting system according to another embodiment of the present invention.

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

210: multimedia data signal input unit 220: MPEG encoder

230: PHY / MAC processor 240: wireless transceiver

250: CPU 310: wireless transceiver

320: BB / MAC processor 330: MPEG decoder

340: Display unit 350: Control unit

Claims (5)

In the multimedia data processing method of a wireless LAN-based multicasting system consisting of a central station including a wireless transmitting and receiving device and a plurality of receiving stations including a wireless transmitting and receiving device, (a) inputting multimedia data into the central station; (b) encoding the input multimedia data; (c) transmitting the encoded multimedia data to the plurality of receiving stations; and (d) transmitting a response signal for the received multimedia data to the central station only at any one of the plurality of receiving stations. The method of claim 1, wherein the receiving station is a receiving station having the lowest reception rate of the multimedia data. The method of claim 1, wherein the multimedia data processing method of the WLAN-based multicasting system comprises: (e) the plurality of receiving stations checking QoS of the received multimedia data; (f) transmitting a response signal for the multimedia data received at a receiving station that does not satisfy QoS among the plurality of receiving stations to the central station, wherein the multimedia data processing method of the WLAN-based multicasting system is further included. . In the multimedia data processing method of a wireless LAN-based multicasting system consisting of a central station including a wireless transmitting and receiving device and a plurality of receiving stations including a wireless transmitting and receiving device, (a) inputting multimedia data into the central station; (b) encoding the input multimedia data; (c) transmitting the encoded multimedia data to the plurality of receiving stations; and and (d) the plurality of receiving stations transmits a response signal for the received multimedia data to the central station at predetermined time intervals. The WLAN-based multicasting system of claim 4, wherein the plurality of receiving stations transmit a response signal for the received multimedia data to the central station at predetermined time intervals in a predetermined order. Of multimedia data processing.