Efficient handoff procedure for header compression

Abstract

The invention is a method of relocating of header compression / decompression functions between a plurality of network entities and mobile compressors and / or mobile decompressors. A method of communication in a packet network which transmits packets having compressed headers in accordance with the invention includes establishing a connection between a first network node and a second network node including storing context information used with compression and decompression of the headers of the packets at the first and second nodes; and changing the connection between the first network node and the second network node to a connection between the second network node and a third network node including transferring the context information representative of the context information stored by the first node to the third network node which is stored by the third node as the context information of the third node and using the stored context information at the second and third nodes for compression and decompression of the headers of the packets at the second and third nodes.

Description

[0001] This application claims the filing date of U.S. provisional application Ser. No. 60 / 164,329, filed Nov. 9, 1999, entitled "An Efficient Handoff Procedure for Header Compression".[0002] Reference is also made to U.S. patent application Ser. No. ______, entitled "A Technique for Compressing a Header Field in a Data Packet", filed on even date herewith, which application is incorporated herein by reference in its entirety.[0003] 1. Field of the Invention[0004] The invention relates to the relocation of header compression / decompression functions between a plurality of network entities and mobile terminals.[0005] 2. Description of the Prior Art[0006] Carrying real-time multi-media traffic over IP-based network has become of great interest since the real-time transport protocol has been introduced. Due to the large size of the IP / UDP / RTP header, that is undesirable in low bandwidth networks such as wireless networks, suitable header compression mechanisms are needed. All known RTP ...

AI Technical Summary

Problems solved by technology

Due to the large size of the IP / UDP / RTP header, that is undesirable in low bandwidth networks such as wireless networks, suitable header compression mechanisms are needed.

Such a reinitialization with full headers is both disruptive of the ongoing communications and consumes the bandwidth over the air interface.

The transfer of compression and decompression context information is a challenge because the compression / decompression process is asynchronous relative to and independent of the handoff process, since the former is driven by the flow of packets, while the latter is driven by the radio conditions.

Just using a short sequence number to detect packet loss is not robust to an error-prone network, such as wireless network where `long loss` may happen frequently.

Because the media normally varies in unpredictable ways, this information cannot be truly predicted.

When packets are lost or corrupted, the decompressor can lose synchronization with the compressor such that it can no longer correctly rebuild packets Loss of synchronization can occur when packets are dropped or corrupted during transmission between compressor and decompressor.

This type of header is the least optimal to send due to its large size (e.g., 40 bytes for IPv4).

Transmission of additional FH packets has adverse effects on the efficiency of the compression algorithm.

Such an event results in some unexpected change in the RTP timestamp value, and a need to update the RTP time stamp at the receiver by a value other than the current FOD.

However, by the time the second network entity starts to use that compression context information, the snapshot decompression context at the mobile may no longer be in synchronism with the snapshot compression context information, since the compression context may have evolved in the meantime.

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