软件学报
軟件學報
연건학보
JOURNAL OF SOFTWARE
2005年
9期
1636-1646
,共11页
樊燕飞%林闯%任丰原%赵达源
樊燕飛%林闖%任豐原%趙達源
번연비%림틈%임봉원%조체원
拥塞控制%模糊逻辑%模糊判别表%主动队列管理
擁塞控製%模糊邏輯%模糊判彆錶%主動隊列管理
옹새공제%모호라집%모호판별표%주동대렬관리
congestion control%fuzzy logic%fuzzy judge table%active queue management
作为端到端拥塞控制机制的有效补充,主动队列管理旨在保证高链路利用率的同时维持较低的排队延迟.FIPD(fuzzy intelligent packet dropping)算法作为一种有效的机制,为主动队列管理提供了全新的方法,但是,FIPD也有其本身固有的缺点,比如居高不下的分组丢失率.旨在克服FIPD这些固有缺点的同时,提出一种新的主动队列管理方案FIPE(FIPD with ECN).首先对FIPD算法进行了总结,并对其本身的优缺点进行了分析,针对FIPD算法分组丢失率高居不下等缺点,引进了众所周知的ECN机制,起到了很大的改善作用,提高了分组的有效传送.并且,在引
作為耑到耑擁塞控製機製的有效補充,主動隊列管理旨在保證高鏈路利用率的同時維持較低的排隊延遲.FIPD(fuzzy intelligent packet dropping)算法作為一種有效的機製,為主動隊列管理提供瞭全新的方法,但是,FIPD也有其本身固有的缺點,比如居高不下的分組丟失率.旨在剋服FIPD這些固有缺點的同時,提齣一種新的主動隊列管理方案FIPE(FIPD with ECN).首先對FIPD算法進行瞭總結,併對其本身的優缺點進行瞭分析,針對FIPD算法分組丟失率高居不下等缺點,引進瞭衆所週知的ECN機製,起到瞭很大的改善作用,提高瞭分組的有效傳送.併且,在引
작위단도단옹새공제궤제적유효보충,주동대렬관리지재보증고련로이용솔적동시유지교저적배대연지.FIPD(fuzzy intelligent packet dropping)산법작위일충유효적궤제,위주동대렬관리제공료전신적방법,단시,FIPD야유기본신고유적결점,비여거고불하적분조주실솔.지재극복FIPD저사고유결점적동시,제출일충신적주동대렬관리방안FIPE(FIPD with ECN).수선대FIPD산법진행료총결,병대기본신적우결점진행료분석,침대FIPD산법분조주실솔고거불하등결점,인진료음소주지적ECN궤제,기도료흔대적개선작용,제고료분조적유효전송.병차,재인
As an effective supplement to end-to-end congestion control mechanism, active queue management aims to keep high link utility while maintaining low queuing delay. As an effective mechanism, the FIPD (fuzzy intelligent packet dropping) algorithm provides a brand-new method for active queue management. However, the FIPD algorithm also has its intrinsic defects, such as high packet loss rate. The objective of this paper is to overcome the defects of FIPD, and a new active queue management method FIPE(FIPD with ECN) is also proposed.Firstly, in this paper, the algorithm FIPD is reviewed and analyzed. Then the advantages and disadvantages are also pointed out. In order to overcome the defects such as high packet loss rate, the well-known ECN mechanism is introduced, which greatly improves the successful packet transmission. At the same time, some amendments are employed and a new active queue management algorithm FIPE is developed. Finally, the validity of the new algorithm is verified by a series of simulations on NS2 simulator.