电子与信息学报
電子與信息學報
전자여신식학보
JOURNAL OF ELECTRONICS & INFORMATION TECHNOLOGY
2013年
8期
1977-1982
,共6页
无线网络%机会路由%马尔科夫特性%状态转移%最小端到端期望传输次数代价
無線網絡%機會路由%馬爾科伕特性%狀態轉移%最小耑到耑期望傳輸次數代價
무선망락%궤회로유%마이과부특성%상태전이%최소단도단기망전수차수대개
Wireless network%Opportunistic Routing (OR)%Markovian property%State transition%Minimal end-to-end Expected Transmission Count (ETX) cost
现有机会路由算法采用与传统无线路由相似的转发机制,为每个节点指定全局度量值或下一跳节点集合。该文首先通过反例指出转发机制不能总获得最优的性能,进而提出从状态转移的角度研究机会路由过程,将不同已接收到的节点集合视为不同的状态,并将路由过程看作由不同状态组成的马尔科夫链。随后建立了相应的路由算法模型,该模型能够揭示路由过程的本质特征,可适用于多播与多冲突域场景。在此基础上提出了基于状态转移的最佳机会路由算法(Shortest Opportunistic Routing, SOR),证明了其在多播与多冲突域场景下可获得最小期望传输次数(Expected Transmission Count, ETX)代价。仿真结果表明了SOR算法的有效性,其性能优于已有算法。SOR算法可应用于多跳无线网络的最优机会路由策略选择,计算给定拓扑下可获得的最小端到端ETX代价。
現有機會路由算法採用與傳統無線路由相似的轉髮機製,為每箇節點指定全跼度量值或下一跳節點集閤。該文首先通過反例指齣轉髮機製不能總穫得最優的性能,進而提齣從狀態轉移的角度研究機會路由過程,將不同已接收到的節點集閤視為不同的狀態,併將路由過程看作由不同狀態組成的馬爾科伕鏈。隨後建立瞭相應的路由算法模型,該模型能夠揭示路由過程的本質特徵,可適用于多播與多遲突域場景。在此基礎上提齣瞭基于狀態轉移的最佳機會路由算法(Shortest Opportunistic Routing, SOR),證明瞭其在多播與多遲突域場景下可穫得最小期望傳輸次數(Expected Transmission Count, ETX)代價。倣真結果錶明瞭SOR算法的有效性,其性能優于已有算法。SOR算法可應用于多跳無線網絡的最優機會路由策略選擇,計算給定拓撲下可穫得的最小耑到耑ETX代價。
현유궤회로유산법채용여전통무선로유상사적전발궤제,위매개절점지정전국도량치혹하일도절점집합。해문수선통과반례지출전발궤제불능총획득최우적성능,진이제출종상태전이적각도연구궤회로유과정,장불동이접수도적절점집합시위불동적상태,병장로유과정간작유불동상태조성적마이과부련。수후건립료상응적로유산법모형,해모형능구게시로유과정적본질특정,가괄용우다파여다충돌역장경。재차기출상제출료기우상태전이적최가궤회로유산법(Shortest Opportunistic Routing, SOR),증명료기재다파여다충돌역장경하가획득최소기망전수차수(Expected Transmission Count, ETX)대개。방진결과표명료SOR산법적유효성,기성능우우이유산법。SOR산법가응용우다도무선망락적최우궤회로유책략선택,계산급정탁복하가획득적최소단도단ETX대개。
Available Opportunistic Routing (OR) works adopted a relay scheme, which is derived from the traditional wireless routing algorithms. In such scheme, each node is assigned with a global metric or next-hop nodes set. In this paper, it is proved that the relay scheme can not always get the optimal performance by counterexample. The OR process is proposed to be regarded as a Markovian chain of different states from the perspective of state transition, where the states denote different set of nodes that have received the packet. Then the OR algorithms are modeled to help to investigate the intrinsic behavior of OR. It can be applied to the scenarios of multicast and multiple collision domains. Based on that, optimal algorithm named Shortest Opportunistic Routing (SOR) is proposed and proved, which can yield the least Expected Transmission Count (ETX) cost in both scenarios of multicast and multiple collision domain. Simulation results verify the superiority of SOR and show that the performance of SOR surpasses previous algorithms. The optimal OR strategy of wireless multi-hop networks can be selected and the minimal end-to-end ETX cost can be yielded by utilizing the proposed SOR.
