KR20070025323A - Method for restoration transport error of intra frame - Google Patents

Abstract

A method for restoring a transportation error of an intra frame is provided to guarantee a real time quality of an image by requesting a retransportation in case of a transportation error. A method for restoring a transportation error of an intra frame includes the steps of: forming an RTP(Real-time Transport Protocol) packet including a predetermined length based I-frame(Intra frame)(S101); transporting the RTP packet(S103); and retransporting the RTP packet according to receiving a retransportation request for the RTP packet(S110).

Description

Method for Restoration Transport Error of Intra Frame

1 is a diagram illustrating a method for recovering an intra frame transmission error between a transmitting terminal and a receiving terminal according to an embodiment of the present invention.

2 is a flowchart illustrating an RTP packet generation process including an I-frame according to the present invention.

3 is an embodiment format illustrating a field of an RTP packet header according to the present invention.

4 is an embodiment format illustrating a field of an application RTCP packet according to the present invention.

The present invention relates to a transmission error recovery method of an intra frame (hereinafter referred to as 'I-frame'), and more particularly, to transmit an intra frame using a real-time transport protocol (hereinafter, referred to as 'RTP'). Error recovery method.

Image compression technology consists of an intra frame (hereinafter referred to as an 'I-frame') and an inter frame.

The I-frame is an independent frame and may constitute one screen by itself without inferring other data.

An inter frame is composed of a B-frame and a P-frame.

The B-frame is a screen generated by performing prediction on the past picture and the future picture, and the P-frame is a screen generated by performing prediction on the past picture.

As described above, an inter frame (B-frame, P-frame) cannot make a screen by itself, but must make a screen by analogy with the I-frame.

In video transmission, compression efficiency is improved by transmitting one I-frame first and then transmitting a plurality of inter frames. However, if a transmission error occurs in the I-frame, the inter frames created by inferring the I-frame are all useless.

Therefore, conventionally, when a transmission error occurs in the I-frame during image transmission as described above, a request for an I-frame in which the transmission error occurs is transmitted to the sender using a Session Description Protocol (hereinafter referred to as 'SDP') message. do.

However, since the SDP message occupies a lot of bandwidth, the response from the sender may be delayed, and media data transmission is delayed due to the size of the SDP message.

An object of the present invention is to transmit an I-frame using a real-time transport protocol (RTP), and when the I-frame transmission error occurs, a real-time transmission control protocol (RTP) It is an object of the present invention to provide a transmission error recovery method of an intra frame that recovers a transmission error by retransmitting only a packet of an I-frame in which an error occurs using ').

In order to achieve the above object, a transmission error recovery method of an intra frame of a transmitting terminal according to the present invention includes a real-time transport protocol including an intra frame having a predetermined length (hereinafter, referred to as 'I-frame'). Protocol (hereinafter, referred to as 'RTP') packet generation; Transmitting the RTP packet; Retransmitting the RTP packet as a retransmission request for the RTP packet is received.

In addition, the transmission error recovery method of the intra frame of the receiving terminal according to the present invention comprises the steps of: receiving a Real-time Transport Protocol (RTP) packet; Checking whether an intra frame (hereinafter referred to as an 'I-frame') is included in the received RTP packet; If an I-frame is included in the RTP packet, identifying a sequence number of the RTP packet; If a transmission error is detected while receiving the RTP packet, transmitting a retransmission request signal including a sequence number of the RTP packet in which the error occurred; And receiving an RTP packet corresponding to the sequence number.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating a method for recovering an intra frame transmission error between a transmitting terminal and a receiving terminal according to an embodiment of the present invention.

Referring to FIG. 1, the transmitting terminal 110 generates an RTP packet including an I-frame (S101).

Hereinafter, the RTP packet generation process including the I-frame of the transmitting terminal 110 will be described in detail.

2 is a flowchart illustrating an RTP packet generation process including an I-frame according to the present invention.

Referring to FIG. 2, the transmitting terminal 110 inserts I-frame identifier information for notifying that the I-frame is transmitted in the extended field of the RTP packet header (S201).

Preferably, the I-frame identifier information is inserted with a size within 4 bytes.

The transmitting terminal 110 inserts a part or all of the I-frame into the RTP packet body (S202) to generate an RTP packet including the I-frame (S203).

3 is an embodiment format illustrating a field of an RTP packet header according to the present invention.

A field of the RTP packet header will be described with reference to FIG. 3.

V (Version) is a version field, and P (Padding) field is used to configure a packet in 32-bit units. The X (Header Extention) field indicates whether the header is extended, and the I-frame identifier information of step S201 of FIG. 2 is inserted. Preferably, the X field has a size of 4 bytes.

The CC (CSRC Count) field indicates the number of CSRC Contributing Source Identifiers.

The M (Marker) field represents a frame area for multimedia data. That is, it is used to distinguish between audio and video data in the packet.

The PT (RTP Payload Type) field refers to the form of the RTP payload of the profile defined in RFC 1890 and is interpreted by the application program.

The Sequence Number field indicates the order of RTP packets.

The Time Stamp field indicates the point in time when the first octet of the RTP packet is sampled.

The Synchronization Source Identifier (SSRC) field means an identifier of a data source such as a camera or a microphone.

The Contributing Source Identifier (CSRC) field indicates an identifier that can distinguish the sources when the RTP packets are mixed in the intermediate system.

The transmitting terminal 110 temporarily stores the RTP packet generated in the step S101 in a buffer (S102), and then transmits the generated RTP packet to the receiving terminal 120 (S103).

The receiving terminal 120 receives an RTP packet from the transmitting terminal 110 and checks whether an I-frame is included in the received RTP packet (S104).

Preferably, the receiving terminal 120 checks whether I-frame identifier information exists in the X field, which is an extended field of the received RTP packet header, and if the I-frame identifier information exists, the RTP packet is added to the RTP packet. Note that I-frames are included.

If the I-frame is included in the RTP packet, the receiving terminal 120 reads the sequence number field of the RTP packet header and checks the sequence number of the RTP packet (S105).

Receiving terminal 120, if a transmission error is detected while receiving the RTP packet (S106), the application-dependent data of the APP (RTP Control Protocol; Dependent Data) field is inserted into the sequence number of the RTP packet in which the error occurs (S107).

If the transmission error is not detected, the receiving terminal 120 continues to receive the RTP packet (S108).

The RTCP packet types include Sender Report (SR) RTCP for reporting the status of transmission and reception of the ongoing Sender, Receiver Report (RR) for reporting the reception status of participating receiver terminals, and SDES (Source Description). There are RTCP, Goodbye RTCP packet (BYE) for indicating the end of session participation, and APP (Application) RTCP applied to the present invention.

4 is an embodiment format illustrating a field of an application RTCP packet according to the present invention.

As shown in FIG. 4, the sequence number of the error-prone RTP packet of step S107 is inserted into an application-dependent data field.

The receiving terminal 120 transmits an application (APP) RTCP including the sequence number of the RTP packet in which the error has occurred, to the transmitting terminal 110 (S109).

The transmitting terminal 110 confirms the sequence number of the RTP packet inserted in the application-dependent data field of the received application RTCP, and receives the RTP packet corresponding to the sequence number. Retransmit to the terminal 120.

The present invention described above is capable of various substitutions, modifications, and changes without departing from the spirit of the present invention for those skilled in the art to which the present invention pertains. It is not limited by the drawings.

In the transmission error recovery method of the intra frame according to the present invention, the error recovery can be quickly recovered by retransmitting only the packet of the I-frame in which an error occurs, and the real-time quality of picture quality is guaranteed by requesting retransmission at the moment of transmission error. It is effective.

Claims (13)

Generating a Real-time Transport Protocol (RTP) packet including an Intra Frame (I-frame) of a predetermined length; Transmitting the RTP packet; And Retransmitting the RTP packet when a request for retransmission of the RTP packet is received. The method of claim 1, And storing the generated RTP packet. The method of claim 1, The generating of the RTP packet may include generating the I-frame identifier information in an extension field of the RTP packet header and inserting part or all of the I-frame in the RTP packet body. The transmission error recovery method of the intra frame, characterized in that the. The method of claim 3, The I-frame identifier information, the transmission error recovery method of the intra frame, characterized in that the size within 4 bytes. The method of claim 1, Receiving a request for retransmission for the RTP packet, characterized in that for receiving a real-time transmission control protocol (RTP Control Protocol) (hereinafter referred to as 'RTCP') packet including the sequence number of the RTP packet detected a transmission error from the receiving side How to recover transmission error of intra frame. The method of claim 5, The RTCP packet is an application (APP) RTCP packet, characterized in that the transmission error recovery method of the intra frame. The method of claim 6, The sequence number of the RTP packet is inserted into the Application-Dependent Data field of the APP RTCP packet. The method according to claim 1 or 5, In the retransmitting the RTP packet, the transmission error recovery method of the intra frame, characterized in that for retransmitting the RTP packet corresponding to the sequence number of the RTP packet detected a transmission error from the receiving side. Receiving a Real-time Transport Protocol (hereinafter, 'RTP') packet; Checking whether an intra frame (hereinafter referred to as an 'I-frame') is included in the received RTP packet; If the I-frame is included in the RTP packet, checking a sequence number of the RTP packet; If a transmission error is detected while receiving the RTP packet, transmitting a retransmission request signal including a sequence number of the RTP packet in which the error occurred; And Receiving an RTP packet corresponding to the sequence number. The method of claim 9, And checking whether an I-frame is included in the RTP packet, checking whether the I-frame identifier information exists in an extension field of the RTP packet header. The method of claim 9, The transmitting of the retransmission request signal may include a transmission error of an intra frame, including a sequence number of an RTP packet in which the error occurs in a real time RTP control packet. Recovery method. The method of claim 11, The RTCP packet is an application (APP) RTCP packet, characterized in that the transmission error recovery method of the intra frame. The method of claim 11, And transmitting the sequence number of the RTP packet into an Application-Dependent Data field of the APP RTCP packet.

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