信号处理
信號處理
신호처리
SIGNAL PROCESSING
2014年
8期
882-890
,共9页
王庚润%李炯%罗建%刘爱军%郭道省
王庚潤%李炯%囉建%劉愛軍%郭道省
왕경윤%리형%라건%류애군%곽도성
卫星通信系统%复数域网络编码%处理转发%透明转发%双向通信
衛星通信繫統%複數域網絡編碼%處理轉髮%透明轉髮%雙嚮通信
위성통신계통%복수역망락편마%처리전발%투명전발%쌍향통신
satellite communication systems%complex field network coding%processing transponder%transparent tran-sponder%two-way communication
针对传统卫星通信系统吞吐量不高的问题,本文提出了一种基于复数域网络编码(CFNC)的卫星通信系统方案。该方案在发送前对信号进行符号级的CFNC编码,在不增加终端发射功率的情况下提供比传统卫星通信系统更高的吞吐量,并适用于多用户网络。该方案同时适用于基于处理转发器和透明转发器的卫星平台。特别是在双向卫星通信系统中,与基于伽罗瓦域网络编码(GFNC)的系统相比,本文提出的方案不仅具有更高的吞吐量而且更具有普适性。
針對傳統衛星通信繫統吞吐量不高的問題,本文提齣瞭一種基于複數域網絡編碼(CFNC)的衛星通信繫統方案。該方案在髮送前對信號進行符號級的CFNC編碼,在不增加終耑髮射功率的情況下提供比傳統衛星通信繫統更高的吞吐量,併適用于多用戶網絡。該方案同時適用于基于處理轉髮器和透明轉髮器的衛星平檯。特彆是在雙嚮衛星通信繫統中,與基于伽囉瓦域網絡編碼(GFNC)的繫統相比,本文提齣的方案不僅具有更高的吞吐量而且更具有普適性。
침대전통위성통신계통탄토량불고적문제,본문제출료일충기우복수역망락편마(CFNC)적위성통신계통방안。해방안재발송전대신호진행부호급적CFNC편마,재불증가종단발사공솔적정황하제공비전통위성통신계통경고적탄토량,병괄용우다용호망락。해방안동시괄용우기우처리전발기화투명전발기적위성평태。특별시재쌍향위성통신계통중,여기우가라와역망락편마(GFNC)적계통상비,본문제출적방안불부구유경고적탄토량이차경구유보괄성。
In order to improve the throughput of traditional satellite communication systems,a new satellite communica-tion system was proposed based on the complex field network coding (CFNC)in this paper.By encoding signals of every user-end with CFNC before transmitting,the proposed scheme exhibited desirable throughput compared with traditional sat-ellite communication systems.Considering that there were different types of communication satellite platforms,this scheme was suited for both processing transponder based communication satellites and transparent transponder based communication satellites.What’s more,this scheme supported symbol-level signals to be encoded and multiple end-users networks without increasing the transmit-power.We analyzed the throughput and symbol error probability (SEP)of the proposed scheme,and it was proved that this scheme increased the system throughput without much loss of SEP performance.Specially,performance of the proposed scheme was compared with that of the Galois field network coded (GFNC)scheme in the two-way satellite communication system,and it was demonstrated that the proposed scheme had advantages of higher throughput and more gen-eral implementation circumstances.Finally,analytical results were supported and validated by numerical simulations.