KR20160129817A - Multimedia Broadcast Service System, Wireless Relay Apparatus for Relaying Multimedia Broadcast and Relaying Method therefor - Google Patents

Abstract

Disclosed are a multimedia broadcasting service system, a wireless relay apparatus for relaying multimedia broadcasting, and a multimedia broadcasting relaying method. According to an embodiment of the present invention, the multimedia broadcasting service system, in a multimedia broadcasting service system to wirelessly provide a multimedia broadcasting service via a network, comprises: a broadcasting transmission device to transmit multimedia broadcasting content; a wireless relay device to set a communication connection with a broadcasting transmission device, to successively receive a packet of the multimedia broadcasting content from the broadcasting transmission device, to transmit the received packet to a wireless section, to form a window by combining the packets of the preset number, and to transmit the packets to a wireless section by demodulating the packets with a window unit; and a wireless terminal to receive the packet from the wireless relay device and to reproduce the multimedia broadcasting content based on the received packet.

Description

Technical Field [0001] The present invention relates to a multimedia broadcast service system, a wireless relay apparatus for relaying multimedia broadcasts, and a multimedia relay service method for relaying multimedia broadcasts.

An embodiment of the present invention relates to a multimedia broadcasting service system, a wireless relay apparatus for relaying multimedia broadcasts, and a multimedia broadcast relay method. More specifically, even if a unidirectional multimedia broadcasting service is executed using a wireless communication standard such as Wi-Fi, the deterioration of broadcast quality can be prevented, and a stable multimedia broadcasting service The present invention relates to a multimedia broadcasting service system capable of providing multimedia broadcasting services and a wireless relaying apparatus for multimedia broadcasting relaying the same.

The contents described in this section merely provide background information on the embodiment of the present invention and do not constitute the prior art.

2. Description of the Related Art [0002] In general, a wireless communication technology including mobile communication and wireless network communication includes a multiple access technique that enables data to be transmitted after acquiring a right to occupy a transmission medium when a plurality of users simultaneously transmit data, Allocation algorithms and the like.

The multiple access technique is one of the methods of using the communication transmission line capacity divisionally. The first method is a multiplexing method, which is a method of using division when a transmission path capacity is used for communication between two points, and the transmission side multiplexes and transmits the transmission method. Such a multiplexing method is widely used for terrestrial fixed wireless communication as a inter-station transmission line, coaxial cable, and optical cable communication. The second method is a method in which a plurality of points physically located at different positions are used by dividing the transmission path capacity, and this method is referred to as a multiple access method in a strict sense.

In the satellite communication, a plurality of repeaters in the same service area communicate with each other by using one transmission line, i.e., a satellite-mounted repeater, etc., and a plurality of terminals cooperate with each other in a mobile communication to communicate with each other Let's do it. A method of dividing one relay apparatus into a plurality of terminals by a multiplexing method of signals according to a multiplexing method includes a frequency division multiple access (FDMA), a time division multiple access (TDMA) And Code Division Multiple Access (CDMA). On the other hand, in the case of satellite communication, there is a concept of a multiple access in view of the allocation of satellite circuits, that is, the circuit configuration method, in addition to the multiplexing method of such a circuit. In other words, pre-assigned multiple access (PAMA) in which a satellite line is permanently or semi-permanently allocated to each relay device and the line configuration is fixed in advance and a satellite line is variably allocated And Demand Assigned Multiple Access (DAMA). In such a wireless communication technology, a forward link that is a link from a fixed point to a moving terminal, a reverse link that is a link from a moving terminal to a fixed point, a link between the repeater and a communication relay satellite, And transmits and receives signals in both directions through an uplink and a downlink.

Meanwhile, broadcasting services such as terrestrial broadcasting, satellite broadcasting, and DMB (Digital Multimedia Broadcasting) are provided through broadcasting-only wireless communication technology. Such broadcast-specific radio communication technology does not require a multiple access technology or a resource allocation algorithm required for a general radio communication technology and differentiates it from a general radio communication technology by a transmission algorithm that is resistant to errors in one direction and a broadcasting channel allocation standard Communication technology.

* In recent years, technology development to provide new concept services such as interactive broadcasting, participatory broadcasting and zone-based open private broadcasting by combining broadcasting technology with wireless communication service technology Wi-Fi (Wi-Fi) It is actively proceeding.

However, when a unidirectional broadcast service is executed on a 1: N reverse link using a wireless communication standard of a Wi-Fi other than a broadcasting-specific wireless standard such as terrestrial broadcasting, satellite broadcasting, DMB, etc., If an error occurs in the broadcast stream, the broadcast service is not restored, and the quality of the broadcast service such as the break of the broadcast screen or the stop of the broadcast screen becomes unstable.

The embodiments of the present invention have been made to solve the above-mentioned problems, and it is an object of the present invention to provide a wireless communication system and a wireless communication method, A multimedia broadcasting service system capable of providing a stable multimedia broadcasting service without changing the protocol stack structure of the multimedia broadcasting relaying apparatus, and a multimedia broadcasting relaying method for the multimedia broadcasting relaying.

According to another aspect of the present invention, there is provided a multimedia broadcasting service system for providing a multimedia broadcasting service wirelessly through a network, the system comprising: a broadcasting transmitting unit for transmitting multimedia broadcasting contents; A communication connection is established with the broadcasting apparatus, a packet of the multimedia broadcasting contents is sequentially received from the broadcasting transmission apparatus, the received packet is transmitted to the wireless section, a predetermined number of packets are combined to form a window, A wireless relay apparatus for demodulating packets and transmitting the packets to a wireless section; And a wireless terminal for receiving the packet from the wireless relay apparatus and reproducing the multimedia broadcast content based on the received packet.

According to an aspect of the present invention, there is provided a wireless relay apparatus for relaying multimedia broadcast from a multimedia broadcast transmission apparatus to a wireless terminal, the apparatus comprising: a connection establishing unit for establishing a communication connection with a broadcast transmission apparatus; ; A packet receiving unit for sequentially receiving a packet of a multimedia broadcast from a broadcast transmitting apparatus when a communication connection with the broadcast transmitting apparatus is established; A packet transmission unit for transmitting a received packet to a wireless section; And a demodulation packet storage unit for demodulating and storing packets for a predetermined time. Here, it is preferable that the packet transmitting unit sequentially transmits the packets stored in the demodulation packet storing unit to the radio section when the set time passes.

The radio relay apparatus according to an embodiment of the present invention may further include a demodulation timer driving unit for counting a demodulation time for demodulating the transmitted packet when a packet received from the broadcast transmission apparatus is transmitted in a radio section.

At this time, the demodulation timer driving unit preferably adjusts the demodulation time corresponding to the traffic of the radio section.

The radio relay apparatus according to an embodiment of the present invention may further include a window forming unit for forming a window by combining a predetermined number of packets sequentially received from the broadcast transmitting apparatus.

According to another aspect of the present invention, there is provided a multimedia broadcast relay method for relaying a multimedia broadcast from a multimedia broadcast transmission apparatus to a wireless terminal, the method comprising: step; Sequentially receiving a packet of a multimedia broadcast from a broadcast transmission apparatus when a communication connection with the broadcast transmission apparatus is established; Transmitting a packet to a radio section and driving a demodulation timer to set a demodulation time; Demodulating and storing the packet during the set demodulation time; And transmitting the stored packets sequentially to the radio section when the set demodulation time has elapsed.

Here, the demodulation timer driving step may reset the demodulation timer and count the demodulation time when each received packet is transmitted in the radio section.

Also, the demodulation timer driving step may adjust the demodulation time corresponding to the traffic of the radio section.

The step of demodulating and storing the packets may form a window by combining a predetermined number of packets sequentially received from the broadcast transmitting apparatus.

According to another aspect of the present invention, there is provided a multimedia broadcast relay method for relaying a multimedia broadcast from a multimedia broadcast transmission apparatus to a wireless terminal, the method comprising: receiving a packet of a multimedia broadcast from a broadcast transmission apparatus; Sequentially receiving Transmitting each received packet to a radio section and driving a demodulation timer to set a demodulation time; Demodulating and storing the packet during the set demodulation time; And transmitting the demodulated packets sequentially to the radio section when a predetermined time has elapsed.

At this time, it is preferable that each packet includes information on the order of each packet sequentially received from the broadcasting apparatus.

According to the embodiment of the present invention, even if a unidirectional multimedia broadcasting service is executed using a wireless communication standard such as Wi-Fi, the deterioration of broadcast quality can be prevented.

In addition, according to the embodiment of the present invention, it is possible to provide a stable multimedia broadcasting service without changing the protocol stack structure of the existing wireless communication.

FIG. 1 is a diagram schematically illustrating a multimedia broadcasting service system according to an embodiment of the present invention. Referring to FIG.
2 is a schematic view of a radio relay apparatus for multimedia broadcast relay according to an embodiment of the present invention.
3 is a diagram illustrating a protocol stack structure of a wireless communication according to an embodiment of the present invention.
4 is a diagram illustrating a multimedia broadcast relaying method according to an embodiment of the present invention.

Hereinafter, a multimedia broadcasting service system, a wireless relay apparatus for relaying multimedia broadcasts, and a method for relaying multimedia broadcasts according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 1 is a diagram schematically illustrating a multimedia broadcasting service system according to an embodiment of the present invention. Referring to FIG.

1, the multimedia broadcasting service system according to the embodiment of the present invention may include a broadcasting transmission apparatus 110, a wireless relay apparatus 120, and a plurality of wireless terminals 140, 110 may be wired or wirelessly connected to the wireless relay apparatus 120 through the network 130. [ Here, the network 130 may be a communication network such as a Code Division Multiple Access (CDMA), a Wideband Code Division Multiple Access (WCDMA), a Global System for Mobile Communications (GSM) The access network of the next generation mobile communication system. Although the broadcast transmitting apparatus 110 and the wireless relay apparatus 120 are illustrated as being connected to each other through the network 130 in the drawing, the broadcast transmitting apparatus 110 and the wireless relay apparatus 120 may be directly connected by wire, Bluetooth, Near Field Communication (NFC), or the like.

The broadcast transmitting apparatus 110 transmits the multimedia broadcasting contents. Here, the broadcast transmission apparatus 110 may operate as a repeater that receives multimedia broadcast content from a multimedia broadcast content production server (not shown) and transmits the received multimedia broadcast content to the wireless relay apparatus 130, Function as a server having a function.

The wireless relay apparatus 120 establishes a communication connection with the broadcast transmission apparatus 110 and sequentially receives packets of the multimedia broadcast contents based on the Real-time Transport Protocol (RTP) from the broadcast transmission apparatus 110. Here, the wireless relay apparatus 120 can establish a communication connection based on the RTSP (Real Time Streaming Protocol) with the broadcast transmission apparatus 110.

In addition, the wireless relay apparatus 120 transmits a packet of the multimedia broadcast content from the broadcast transmission apparatus 110 to the wireless section as soon as it receives the packet, combines a predetermined number of packets sequentially received from the broadcast transmission apparatus 110, Demodulates the packets in units of window formed, and transmits them to the wireless section. Here, the window is set as two packets, four packets, eight packets, or 2 ^N packets (where N is a natural number of 4 or more) as a unit of multimedia broadcast contents that can be played by the wireless terminal 140 . The wireless section means wireless terminals 140 located within a range where wireless communication with the wireless relay apparatus 120 is possible. That is, the wireless relay apparatus 120 transmits packets of the multimedia broadcast contents received from the broadcast transmission apparatus 110 to the nearby wireless terminals 140 in real time, and the wireless terminal 140 transmits the packets of the multimedia broadcast contents received from the wireless relay apparatus 120, Whether or not the multimedia broadcast content transmitted by the user is reproduced.

On the other hand, RTSP refers to a protocol of the application layer that performs real-time media transmission in On-Demand format. A communication protocol for transmitting and receiving voice and video in real time, developed by Real Networks (formerly Progressive Network) and Netscape Communications, Inc. in the United States, and detailed in RFC 2326. RTSP, like H. 323, uses RTP to specify the multimedia content packet format. However, while H. 323 is designed for videoconferencing between moderate sized groups, RTSP is designed to efficiently broadcast audio and video data to large groups. Unlike RTP, there are features that operate at the application layer. There is no need to swap the normal TCP / IP stack, but RTP is used instead of TCP. In this case, quality of service (QoS) can be more reliably improved.

In addition, the RTSP can set a function such as Network Remote Control together with the broadcast transmission apparatus 110 for channel setting and control of a single or a plurality of consecutive media requiring temporal synchronization such as audio / video . For this purpose, it is possible to designate and manage an 8-digit identifier for each session connected to the broadcast transmission apparatus 110, and it may operate regardless of a connection-oriented service or a connectionless service. It operates independently of the transport layer responsible for the actual media transmission.

In a typical streaming framework, streaming data and metadata are separated, and streaming data portions are stored in a relational database. In a streaming framework environment using a file system and a relational database at the same time, a protocol such as HTTP is used to transmit metadata. However, when a multimedia database is used, streaming data (large amount of multimedia data) and metadata (small amount of related information data) exist in the same database. As a result, metadata such as streaming data can guarantee real- I have. There is a problem that it is difficult to guarantee the real-time property obtained from the multimedia data because the metadata transmission method using HTTP does not have a time stamp function for the requested or answered packet.

RTP is a transport layer communication protocol for transmitting and receiving voice or call in real time, and is specified in RFC 1889 together with RTCP (RTP Control Protocol). Unlike the Resource Reservation Protocol (RSVP), RTP is performed between terminals without depending on a communication network device such as a router. RTP is usually used as the upper communication protocol of the User Datagram Protocol (UDP). The sender can discard a packet with a large delay by taking a playback synchronization based on a time stamp. In addition, it was adopted in ITU recommendation H. 323 of video conferencing system in LAN / Internet environment using RTC (RTP Control protocol) to check transmission delay and bandwidth on the receiving side. NetMeeting, .

Simple Multicast Audio Conferencing conducts meetings with a single address and a pair of ports, representing multiple parties. One port is used for transmitting voice data, and the other port is used by RTCP. Information about these addresses and ports is known to conference participants. When communicating over the Internet, the data sent by the sender may be lost on the way, or the data may arrive differently from the sender's order, or the data sent may arrive late. Therefore, when transmitting data using RTP, information on time information and sequence number of data is included so that the recipient can properly combine the received data.

If audio and video conferences are to be used in a conference at the same time for voice and video, voice and video data must be transmitted in respective RTP data. The RTCP data is transmitted by using one address representing a pair and a plurality of ports for voice and video, respectively. Therefore, the participant of the conference can select and receive the data of the form (voice or image) selected by the participant. Participants who want to receive both types of data should include time information in the RTCP packet so that they can properly report and listen to both data.

Mixers and Translators do not need mixers and transducers if all participants in the meeting participate in the same environment. However, not all participants in the world who communicate via the Internet can be in the same environment. Therefore, it is used to ensure that each participant has an appropriate form of data transmission. For example, it is the purpose of mixers and converters that a participant who is only possible at a slow rate can refer to a high-speed conference, or vice versa, that one participant can not penalize a large number of participants. In other words, the environment allows data to be transmitted to other participants in an appropriate form.

In addition, RTP is a transport protocol for simultaneously supporting the metadata transmission function and the streaming data transaction function in real-time environment in which the multimedia database must be supported, and is implemented similarly to the RTSP, , The actual transaction will be made to the database upon request.

The wireless terminal 140 receives the packet of the multimedia broadcast content from the wireless relay apparatus 120 and reproduces the multimedia broadcast content based on the received packet. At this time, since the wireless repeater 120 transmits the packet of the multimedia broadcasting contents to the wireless section as soon as the packet of the multimedia broadcasting contents is received from the broadcasting transmission apparatus 110 and then transmits the demodulated packet to the wireless section again, May be repeatedly receiving the same packet. In this case, the wireless terminal 140 only needs to receive the first good packet among the same packets received from the wireless relay apparatus 120, and ignores other remaining packets. In this case, since the order information of the packets sequentially received from the broadcast transmission apparatus 110 by the wireless relay apparatus 120 is included in each packet, packets transmitted in the wireless section in the wireless relay apparatus 120 are lost Even if an error occurs, the wireless terminal 140 can select the good packets from the demodulated packets and smoothly reproduce the multimedia broadcast contents.

2 is a schematic view of a radio relay apparatus for multimedia broadcast relay according to an embodiment of the present invention.

2, the radio relay apparatus 120 includes a connection establishing unit 121, a packet receiving unit 122, a demodulation packet storing unit 123, a packet transmitting unit 124, a demodulation timer driving unit 125, (126).

The connection establishing unit 121 establishes a communication connection with the broadcast transmitting apparatus 110. At this time, the connection establishing unit 121 preferably establishes a communication connection with the broadcasting transmitting apparatus 110 based on the RTSP. When the connection establishing unit 121 establishes a communication connection with the broadcasting transmitting apparatus 110, the packet receiving unit 122 sequentially receives packets of the multimedia broadcasting from the broadcasting transmitting apparatus 110. At this time, the packet receiving unit 122 can receive the multimedia broadcasting packet from the broadcasting transmitting apparatus 110 based on the RTP.

The demodulation packet storage unit 123 can demodulate and store packets for a predetermined time. Here, the window is a unit of multimedia broadcasting contents that can be played back by the wireless terminal 140. As described above, the window is composed of two packets, four packets, eight packets, or 2 ^N packets Natural number).

The packet transmission unit 124 transmits each packet sequentially received from the broadcast transmission apparatus 110 in a radio section. At this time, there is a predetermined time interval between each packet sequentially received from the broadcast transmitting apparatus 110. The demodulation timer driving unit 125 may receive the packet received from the broadcast transmitting apparatus 110 during the reception interval of each packet, The demodulation time set for demodulating the packet can be counted. In this case, it is preferable that the demodulation packet storage unit 123 demodulates and stores a plurality of demodulation packets while receiving each packet from the broadcast transmission apparatus 110. However, the demodulation time counted by the demodulation timer driving unit 125 may be implemented so as to count the demodulation time set while one window is formed, instead of each packet being sent out. In this case, it is preferable that the demodulation packet storage unit 123 demodulates and stores packets on a window basis. At this time, the demodulation timer driving unit 125 can adjust the demodulation time according to the traffic of the wireless section. That is, if the traffic environment of the wireless section is smooth, the probability of loss or error of the transmitted packet may be small. If the traffic environment of the wireless section is poor, the probability of loss or error of the transmitted packet may be high. Accordingly, the demodulation timer driving unit 125 can increase or decrease the demodulation time according to the traffic environment of the radio section, and the number of demodulated packets varies according to the demodulation time. At this time, it is assumed that the demodulation time for each packet is the same. The packets demodulated during the demodulation time are stored in the demodulation packet storage unit 123. The packet transmission unit 124 sequentially transmits the demodulation packets stored in the demodulation packet storage unit 123 after the set demodulation time has elapsed, .

The window forming unit 126 forms a window by combining a predetermined number of packets sequentially received from the broadcast transmitting apparatus 110. At this time, instead of counting the demodulation time while each packet received from the broadcast transmission apparatus 110 is transmitted in the radio section, the demodulation timer driving unit 125 forms a window having a size set by the window formation unit 126, May be implemented to count the time. In this case, the demodulation packet storage unit 123 can demodulate and store the packets during the demodulation time in units of windows formed.

3 is a diagram illustrating a protocol stack structure of a wireless communication according to an embodiment of the present invention.

As shown in FIG. 3, the multimedia broadcasting service system according to the embodiment of the present invention maintains the protocol stack structure of general wireless communication as it is. That is, the protocol stack structure of the wireless communication according to the embodiment of the present invention can be applied to an application layer (Appl), an RTP / RTSP layer, a UDP layer, an IP (Internet Protocol) layer, Respectively. However, according to the embodiment of the present invention, a function for adaptation of error recovery can be added in the RTP layer by applying FEC (Forward Error Correction) function, which is one of broadcast transmission techniques.

4 is a diagram illustrating a multimedia broadcast relaying method according to an embodiment of the present invention.

Referring to FIGS. 2 and 4, the connection establishing unit 121 establishes a communication connection with the broadcasting transmitting apparatus 110 (S410). When the connection establishing unit 121 establishes a communication connection with the broadcasting transmitting apparatus 110, the packet receiving unit 122 sequentially receives the multimedia broadcasting packets from the broadcasting transmitting apparatus 110 at step S420. Each packet received from the broadcast transmission apparatus 110 is transmitted to the radio section by the packet transmission section 124. At this time, the demodulation timer driving unit 125 may count the demodulation time set for demodulating the packet while the packet received from the broadcast transmission apparatus 110 is transmitted in the radio interval (S430). Alternatively, instead of counting the demodulation time for each packet transmission, a window may be formed by the window formation unit 126 and the demodulation time may be counted.

The demodulation packet storage unit 123 demodulates and stores the packet during the set demodulation time (S440). At this time, the demodulation packet storage unit 126 may demodulate the same packet for each packet received from the broadcast transmission apparatus 110, or demodulate and store the packet on a window unit formed by the window formation unit 126 .

When the demodulation time counted by the demodulation timer driving unit 125 elapses (S450), the packet transmission unit 124 sequentially transmits the demodulation packets stored in the demodulation packet storage unit 123 to the radio section (S460). After the demodulation packets stored in the demodulation packet storage unit 123 are transmitted in the radio section, the demodulation timer driving unit 125 preferably resets and counts the count of the demodulation time.

Accordingly, even if a packet is lost or an error occurs according to the traffic environment of the wireless section, the wireless terminal 140 can select good packets through the demodulated and re-transmitted packets, thereby enabling a unidirectional It is possible to prevent the deterioration of broadcast quality even if the multimedia broadcasting service is executed. In this way, a stable multimedia broadcasting service can be provided without changing the protocol stack structure of the existing wireless communication.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. It should be noted that the embodiments disclosed in the present invention are not intended to limit the scope of the present invention and are not intended to limit the scope of the present invention. Therefore, the scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of the same shall be construed as being included in the scope of the present invention.

As described above, the embodiment of the present invention can prevent deterioration of broadcast quality even when a unidirectional multimedia broadcasting service is executed using a wireless communication standard such as Wi-Fi, It is a very useful invention that provides a stable multimedia broadcast service without changing the service.

Claims (4)

A connection establishing unit for establishing a communication connection with a broadcasting transmitting apparatus for transmitting multimedia broadcasting;
A packet receiving unit for sequentially receiving packets of the multimedia broadcasting from the broadcasting transmitting apparatus when a communication connection is established with the broadcasting transmitting apparatus;
A packet transmitting unit for transmitting the received packet to a wireless section; And
A demodulation packet storage unit for demodulating and storing the packet for a predetermined time,
/ RTI >
Wherein the packet transmission unit sequentially transmits the packets stored in the demodulation packet storage unit to the radio section when the set time has elapsed,
And a demodulation timer driving unit for counting a demodulation time for demodulating the transmitted packet as soon as the packet received from the broadcast transmission apparatus is transmitted to the radio section.
The method according to claim 1,
A demodulation timer driving unit for counting a demodulation time for demodulating the transmitted packet when the packet received from the broadcast transmission apparatus is transmitted to the radio section,
The wireless relay apparatus comprising: 3. The method of claim 2,
The demodulation timer driving unit includes:
And adjusts the demodulation time corresponding to the traffic of the radio section. The method according to claim 1,
A window forming unit for forming the window by combining the packets sequentially received from the broadcast transmitting apparatus by a predetermined number,
The wireless relay apparatus comprising:

Images