Method and apparatus for efficient packet compression
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H04L-029/06
H04W-028/06
출원번호
US-0258893
(2014-04-22)
등록번호
US-9374443
(2016-06-21)
발명자
/ 주소
Govindappa, Sumanth
Venkatachalam Jayaraman, Venkata Ramanan
Kapoor, Rohit
Chhatriwala, Murtuza Taheri
Cereck, Pamela Ann
Dwaral, Swarup Nagaraj
출원인 / 주소
QUALCOMM Incorporated
대리인 / 주소
Arent Fox LLP
인용정보
피인용 횟수 :
0인용 특허 :
2
초록▼
Methods and apparatus are described for reordering a header of a transmission data packet. The methods and apparatus include identifying one or more static fields and one or more dynamic fields within a header of the transmission data packet. Moreover, these aspects include reordering the one or mor
Methods and apparatus are described for reordering a header of a transmission data packet. The methods and apparatus include identifying one or more static fields and one or more dynamic fields within a header of the transmission data packet. Moreover, these aspects include reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet. Additionally, these aspects include compressing the header of the transmission data packet to form a compressed transmission data packet in response to reordering the one or more static fields and the one or more dynamic fields. The aspects also may include transmitting the compressed transmission data packet.
대표청구항▼
1. A method of communication, comprising: identifying one or more static fields corresponding to fields with a high probability of not changing across a plurality of transmission data packets and one or more dynamic fields corresponding to fields with a high probability of changing across a pluralit
1. A method of communication, comprising: identifying one or more static fields corresponding to fields with a high probability of not changing across a plurality of transmission data packets and one or more dynamic fields corresponding to fields with a high probability of changing across a plurality of transmission data packets within a header of a transmission data packet;reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet, wherein the reordering includes grouping together the one or more static fields and the one or more dynamic fields within the header of the transmission data packet;compressing the transmission data packet to form a compressed transmission data packet after the reordering of the one or more static fields and the one or more dynamic fields, wherein compressing the transmission data packet to form the compressed transmission data packet includes: detecting a string of bytes of the transmission data packet that matches a preset string of bytes saved in a memory component;replacing the string of bytes of the transmission data packet that has been detected to match the preset string of bytes saved in the memory component with a location pointer, wherein after replacing the string of bytes of the transmission data packet with the location pointer, the transmission data packet comprises the location pointer and a set of literal-bytes; andgenerating the compressed transmission data packet by entropy coding the transmission data packet comprising the set of literal-bytes and the location pointer; andtransmitting the compressed transmission data packet. 2. The method of claim 1, further comprising determining a transmission protocol of a transmission data packet. 3. The method of claim 2, wherein the one or more static fields and the one or more dynamic fields within the header of the transmission data packet are identified based at least in part on the transmission protocol of the transmission data packet. 4. The method of claim 1, wherein reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet comprises placing the one or more static fields at a beginning of the header in response to grouping together the one or more static fields. 5. The method of claim 1, wherein reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet comprises placing the one or more dynamic fields at an end of the header in response to grouping together the one or more dynamic fields. 6. The method of claim 1, wherein the string of bytes of the transmission data packet comprises the one or more static fields. 7. The method of claim 1, further comprising: receiving a second compressed transmission data packet, wherein the second compressed transmission data packet is different from the compressed transmission data packet;decompressing the second compressed transmission data packet to form a decompressed transmission data packet;determining whether a header of the decompressed transmission data packet matches a stored header in a memory; andreordering one or more static fields and one or more dynamic fields within the header of the decompressed transmission data packet based at least in part on determining whether the header of the decompressed transmission data packet matches the stored header. 8. The method of claim 1, further comprising: identifying the header of the transmission data packet based on a rule that the header of the transmission data packet occupies a first number of bytes of the transmission data packet,wherein the compressing comprises performing a header-only compression by compressing the first number of bytes of the transmission data packet. 9. A non-transitory computer-readable medium storing computer executable code for communication, comprising: code for identifying one or more static fields corresponding to fields with a high probability of not changing across a plurality of transmission data packets and one or more dynamic fields corresponding to fields with a high probability of changing across a plurality of transmission data packets within a header of a transmission data packet;code for reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet, wherein the code for reordering includes code for grouping together the one or more static fields and the one or more dynamic fields within the header of the transmission data packet;code for compressing the transmission data packet to form a compressed transmission data packet after the reordering of the one or more static fields and the one or more dynamic fields, wherein the code for compressing the transmission data packet to form the compressed transmission data packet includes: code for detecting a string of bytes of the transmission data packet that matches a preset string of bytes saved in a memory component;code for replacing the string of bytes of the transmission data packet that has been detected to match the preset string of bytes saved in the memory component with a location pointer, wherein after replacing the string of bytes of the transmission data packet with the location pointer, the transmission data packet comprises the location pointer and a set of literal-bytes; andcode for generating the compressed transmission data packet by entropy coding the transmission data packet comprising the set of literal-bytes and the location pointer; andcode for transmitting the compressed transmission data packet. 10. An apparatus for communication, comprising: means for identifying one or more static fields corresponding to fields with a high probability of not changing across a plurality of transmission data packets and one or more dynamic fields corresponding to fields with a high probability of changing across a plurality of transmission data packets within a header of a transmission data packet;means for reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet, wherein the means for reordering includes means for grouping together the one or more static fields and the one or more dynamic fields within the header of the transmission data packet;means for compressing the transmission data packet to form a compressed transmission data packet after the reordering of the one or more static fields and the one or more dynamic fields, wherein the means for compressing the transmission data packet to form the compressed transmission data packet includes: means for detecting a string of bytes of the transmission data packet that matches a preset string of bytes saved in a memory component;means for replacing the string of bytes of the transmission data packet that has been detected to match the preset string of bytes saved in the memory component with a location pointer, wherein after replacing the string of bytes of the transmission data packet with the location pointer, the transmission data packet comprises the location pointer and a set of literal-bytes; andmeans for generating the compressed transmission data packet by entropy coding the transmission data packet comprising the set of literal-bytes and the location pointer; andmeans for transmitting the compressed transmission data packet. 11. An apparatus for communication, comprising: a memory storing executable instructions; anda processor in communication with the memory, wherein the processor is configured to execute the instructions to: identify one or more static fields corresponding to fields with a high probability of not changing across a plurality of transmission data packets and one or more dynamic fields corresponding to fields with a high probability of changing across a plurality of transmission data packets within a header of a transmission data packet;reorder the one or more static fields and the one or more dynamic fields within the header of the transmission data packet, wherein the instructions to reorder include instructions to group together the one or more static fields and the one or more dynamic fields within the header of the transmission data packet;compress the transmission data packet to form a compressed transmission data packet after the reordering of the one or more static fields and the one or more dynamic fields, wherein the processor is further configured to: detect a string of bytes of the transmission data packet that matches a preset string of bytes saved in a memory component;replace the string of bytes of the transmission data packet that has been detected to match the preset string of bytes saved in the memory component with a location pointer, wherein after replacing the string of bytes of the transmission data packet with the location pointer, the transmission data packet comprises the location pointer and a set of literal-bytes; andgenerate the compressed transmission data packet by entropy coding the transmission data packet comprising the set of literal-bytes and the location pointer; andtransmit the compressed transmission data packet. 12. The apparatus of claim 11, wherein the processor is further configured to execute the instructions to determine a transmission protocol of a transmission data packet. 13. The apparatus of claim 12, wherein the one or more static fields and the one or more dynamic fields within the header of the transmission data packet are identified based at least in part on the transmission protocol of the transmission data packet. 14. The apparatus of claim 11, wherein reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet comprises placing the one or more static fields at a beginning of the header in response to grouping together the one or more static fields. 15. The apparatus of claim 11, wherein reordering the one or more static fields and the one or more dynamic fields within the header of the transmission data packet comprises placing the one or more dynamic fields at an end of the header in response to grouping together the one or more dynamic fields. 16. The apparatus of claim 11, wherein the string of bytes of the transmission data packet comprises the one or more static fields. 17. The apparatus of claim 11, wherein the processor is further configured to execute the instructions to: receive a second compressed transmission data packet, wherein the second compressed transmission data packet is different from the compressed transmission data packet;decompress the second compressed transmission data packet to form a decompressed transmission data packet;determine whether a header of the decompressed transmission data packet matches a stored header in a memory; andreorder one or more static fields and one or more dynamic fields within the header of the decompressed transmission data packet based at least in part on determining whether the header of the decompressed transmission data packet matches the stored header. 18. The apparatus of claim 11, wherein the processor is further configured to execute the instructions to: identify the header of the transmission data packet based on a rule that the header of the transmission data packet occupies a first number of bytes of the transmission data packet,wherein the compressing comprises performing a header-only compression by compressing the first number of bytes of the transmission data packet.
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이 특허에 인용된 특허 (2)
Hamiti, Shkumbin; Parantainen, Janne, Header compression in real time service.
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