信号处理
信號處理
신호처리
SIGNAL PROCESSING
2014年
9期
1048-1054
,共7页
DAO Van-phuong%赵力%左加阔%邹采荣
DAO Van-phuong%趙力%左加闊%鄒採榮
DAO Van-phuong%조력%좌가활%추채영
水声通信网络%MACA介质访问控制协议%水生通信MAC协议%水声通信FAMA协议
水聲通信網絡%MACA介質訪問控製協議%水生通信MAC協議%水聲通信FAMA協議
수성통신망락%MACA개질방문공제협의%수생통신MAC협의%수성통신FAMA협의
underwater acoustic communication network%MACA medium access control%underwater MAC protocol%un-derwater communication FAMA protocol
介质访问控制协议(Medium Access Control,MAC)是水声通信网络中的一种关键技术。与陆地无线通信系统使用无线电波有所不同,水声通信网络依靠水声进行通信。由于水声信道的传播时延长、可用带宽有限,使得设计适合于水声通信网络的MAC协议面临诸多困难。然而,水声信道的长传播时延特性允许在水声信道中同时发送多个数据包,利用该特性,基于MACA协议,本文提出了一种适用于水声通信网络的介质访问控制协议,MACA-C协议。通过将发射数据包和控制包结合在一起,本文提出的协议能够克服水声信道长传输时延的问题。仿真结果表明,MACA-C协议能够提高信道使用率,获得较高且稳定的吞吐量,降低端到端的延迟,并且保持较低的碰撞率。
介質訪問控製協議(Medium Access Control,MAC)是水聲通信網絡中的一種關鍵技術。與陸地無線通信繫統使用無線電波有所不同,水聲通信網絡依靠水聲進行通信。由于水聲信道的傳播時延長、可用帶寬有限,使得設計適閤于水聲通信網絡的MAC協議麵臨諸多睏難。然而,水聲信道的長傳播時延特性允許在水聲信道中同時髮送多箇數據包,利用該特性,基于MACA協議,本文提齣瞭一種適用于水聲通信網絡的介質訪問控製協議,MACA-C協議。通過將髮射數據包和控製包結閤在一起,本文提齣的協議能夠剋服水聲信道長傳輸時延的問題。倣真結果錶明,MACA-C協議能夠提高信道使用率,穫得較高且穩定的吞吐量,降低耑到耑的延遲,併且保持較低的踫撞率。
개질방문공제협의(Medium Access Control,MAC)시수성통신망락중적일충관건기술。여륙지무선통신계통사용무선전파유소불동,수성통신망락의고수성진행통신。유우수성신도적전파시연장、가용대관유한,사득설계괄합우수성통신망락적MAC협의면림제다곤난。연이,수성신도적장전파시연특성윤허재수성신도중동시발송다개수거포,이용해특성,기우MACA협의,본문제출료일충괄용우수성통신망락적개질방문공제협의,MACA-C협의。통과장발사수거포화공제포결합재일기,본문제출적협의능구극복수성신도장전수시연적문제。방진결과표명,MACA-C협의능구제고신도사용솔,획득교고차은정적탄토량,강저단도단적연지,병차보지교저적팽당솔。
Medium access control (MAC)protocol is a key technology for underwater acoustic communication network (UACN).Unlike terrestrial wireless communication which uses radio waves,UACN relies on acoustic waves to communi-cate.The long propagation delay and limited bandwidth of UACN pose great challenges for MAC protocol design.But the long propagation delay in underwater acoustic channel permits multiple packets to be“pipelined”concurrently in the under-water channel.To utilize this characteristic of underwater acoustic channel,in this paper we propose a new MACA-based MAC protocol called MACA-C protocol.By combining transmitting data packet and control packet,the proposed protocol is able to overcome the long propagation delay problem of underwater acoustic channel.Simulation results show that the MACA-C protocol significantly increase channel utilization,achieve high and stable throughput performance,decrease End-to-End delay while maintaining low collision rate.
