Method and apparatus for wireless data transmission subject to periodic signal blockages
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H03M-013/00
H03M-013/25
H03M-013/27
H03M-013/29
H03M-013/37
H04B-007/185
H04L-001/00
출원번호
US-0685854
(2015-04-14)
등록번호
US-9397704
(2016-07-19)
발명자
/ 주소
Eroz, Mustafa
Lee, Lin-Nan
출원인 / 주소
Hughes Networks Systems, LLC
대리인 / 주소
Potomac Technology Law, LLC
인용정보
피인용 횟수 :
0인용 특허 :
11
초록▼
Approaches for satellite data transmissions are provided, which accommodate for periodic signal blockages without packet loss. A data stream is segmented into packets for wireless transmission, wherein the transmission is subject to a periodic blockage, wherein the periodic blockage comprises two bl
Approaches for satellite data transmissions are provided, which accommodate for periodic signal blockages without packet loss. A data stream is segmented into packets for wireless transmission, wherein the transmission is subject to a periodic blockage, wherein the periodic blockage comprises two blockages occurring within a time period, and each blockage is of a respective duration and recurs at regular intervals based on the time period. A forward error correction outer code is applied to the packets for recovery of data erasures due to the periodic blockage, wherein the application of the outer code comprises applying an error correction code to each of the packets to generate a respective codeblock. Each codeblock is interleaved to prevent erasure of consecutive parity bits within the codeblock. The encoded and interleaved codeblocks are transmitted over a wireless channel, wherein a number of data erasures occur within each codeblock due to the periodic blockage.
대표청구항▼
1. A method, comprising: segmenting a data stream into packets of a fixed-size for a burst-mode transmission over a wireless channel, wherein the transmission is subject to a periodic blockage, wherein the periodic blockage comprises at least two blockages occurring within a time period, and each bl
1. A method, comprising: segmenting a data stream into packets of a fixed-size for a burst-mode transmission over a wireless channel, wherein the transmission is subject to a periodic blockage, wherein the periodic blockage comprises at least two blockages occurring within a time period, and each blockage is of a respective duration and recurs at regular intervals based on the time period;applying a forward error correction (FEC) outer code to the packets of the data stream for recovery of data erasures due to the periodic blockage, wherein the application of the FEC outer code comprises applying an error correction code to each of the packets to generate a respective codeblock;interleaving each codeblock to substantially prevent erasure of consecutive parity bits within the codeblock by the periodic blockage, wherein the interleaving of each codeblock comprises writing each bit of the codeblock into an interleaver matrix of n rows and m columns in a row-by-row mode, shuffling the bits of each row within the row, and reading the shuffled bits from each row of the interleaver matrix in the row-by-row mode, and wherein the shuffling of the bits of each row comprises shuffling each bit of an original position k within the row to a new position within the row according to the following scheme: k→(k×ci) mod m, where ci is a row-dependent constant; andtransmitting the encoded and interleaved codeblocks over the wireless channel, wherein a number of the data erasures occur within each codeblock due to the periodic blockage. 2. The method of claim 1, wherein the FEC outer code comprises a low density parity check code configured to optimize the recovery of the number of data erasures within each codeblock. 3. The method of claim 1, wherein ci and m are relatively prime. 4. The method of claim 1, wherein the FEC outer code comprises a rate 4/5 low density parity check code, n=160, m=800, and the values of ci, i=0, 1, 2, ..., 159 are as follows: 313,563,667,539,343,461, 53,181,421,531,397,703,389,721,661,551,123,133, 41,747,789,199,561,131, 17,629,357,333, 41, 99,563,233,411,437, 47,307,779,189,311,671,603, 83,317,379,197,769,373,621, 69,113,553,509,431,439,673, 9, 23,353,671, 77,387,401,401,363,261,797,147,207,319,649,477, 81, 61,753, 79,619, 69,267,687,379,493,187,343,201,387,757,511,507,479,677,427,727,551,559,591,621, 17,127,237,259, 83,583,363,731,779,217,197,103, 29, 19,297,171, 27, 43,453,307,177,737,207,259,499,159,523,783,609, 19,791,329,281,329, 89,103,167,353, 9,691,333,687,153,349,501,353,457,267,691,343,317,327,533,373,393,201,201,729,431,783, 71,613,371,441. 5. The method of claim 1, further comprising: adding a unique word (UW) to each of the packets of the data stream for acquisition of one or more of a frequency, carrier phase and symbol timing of the respective packet. 6. The method of claim 1, further comprising: applying a forward error correction (FEC) inner code to each encoded and interleaved codeblock. 7. The method of claim 6, wherein the FEC inner code comprises one of a low density parity check code (LDPC), a convolutional code, and a turbo code. 8. The method of claim 1, wherein: the wireless channel comprises a channel in a satellite communications system;the transmission comprises a data transmission of a satellite terminal installed on a helicopter having multiple rotor blades; andeach blockage within the time period comprises a blockage by a blade of a respective one of the rotors. 9. An apparatus, comprising: at least one processor; andat least one memory including computer program code for one or more programs,the at least one memory and the computer program code configured to, with the at least one processor, cause the apparatus to perform at least the following, segment a data stream into packets of a fixed-size for a burst-mode transmission over a wireless channel, wherein the transmission is subject to a periodic blockage, wherein the periodic blockage comprises at least two blockages occurring within a time period, and each blockage is of a respective duration and recurs at regular intervals based on the time period;apply a forward error correction (FEC) outer code to the packets of the data stream for recovery of data erasures due to the periodic blockage, wherein the application of the FEC outer code comprises applying an error correction code to each of the packets to generate a respective codeblock;interleave each codeblock to substantially prevent erasure of consecutive parity bits within the codeblock by the periodic blockage, wherein the interleaving of each codeblock comprises writing each bit of the codeblock into an interleaver matrix of n rows and m columns in a row-by-row mode, shuffling the bits of each row within the row, and reading the shuffled bits from each row of the interleaver matrix in the row-by-row mode, and wherein the shuffling of the bits of each row comprises shuffling each bit of an original position k within the row to a new position within the row according to the following scheme: k→(k×ci) mod m, where ci is a row-dependent constant; andtransmit the encoded and interleaved codeblocks over the wireless channel, wherein a number of the data erasures occur within each codeblock due to the periodic blockage. 10. The apparatus of claim 9, wherein the FEC outer code comprises a low density parity check code configured to optimize the recovery of the number of data erasures within each codeblock. 11. The apparatus of claim 9, wherein ci and m are relatively prime. 12. The apparatus of claim 9, wherein the FEC outer code comprises a rate 4/5 low density parity check code, n=160, m=800, and the values of ci, i=0, 1, 2, ..., 159 are as follows: 313,563,667,539,343,461, 53,181,421,531,397,703,389,721,661,551,123,133, 41,747,789,199,561,131, 17,629,357,333, 41, 99,563,233,411,437, 47,307,779,189,311,671,603, 83,317,379,197,769,373,621, 69,113,553,509,431,439,673, 9, 23,353,671, 77,387,401,401,363,261,797,147,207,319,649,477, 81, 61,753, 79,619, 69,267,687,379,493,187,343,201,387,757,511,507,479,677,427,727,551,559,591,621, 17,127,237,259, 83,583,363,731,779,217,197,103, 29, 19,297,171, 27, 43,453,307,177,737,207,259,499,159,523,783,609, 19,791,329,281,329, 89,103,167,353, 9,691,333,687,153,349,501,353,457,267,691,343,317,327,533,373,393,201,201,729,431,783, 71,613,371,441. 13. The apparatus of claim 9, wherein the apparatus is caused to further perform the following: add a unique word (UW) to each of the packets of the data stream for acquisition of one or more of a frequency, carrier phase and symbol timing of the respective packet. 14. The apparatus of claim 9, wherein the apparatus is caused to further perform the following: apply a forward error correction (FEC) inner code to each encoded and interleaved codeblock. 15. The apparatus of claim 14, wherein the FEC inner code comprises one of a low density parity check code (LDPC), a convolutional code, and a turbo code. 16. The apparatus of claim 9, wherein: the wireless channel comprises a channel in a satellite communications system;the apparatus consists of or is part of a satellite terminal located on a helicopter having multiple rotor blades;the transmission comprises a data transmission of the satellite terminal; andeach blockage within the time period comprises a blockage by a blade of a respective one of the rotors.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (11)
Sim, Ji Seob; Yoon, Won Sik, Apparatus and method for adaptive hybrid ARQ concatenated FEC.
Hinedi Sami M. ; Griep Karl R. ; Million Samson, Punctured serial concatenated convolutional coding system and method for low-earth-orbit satellite data communication.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.