科技通报
科技通報
과기통보
BULLETIN OF SCIENCE AND TECHNOLOGY
2014年
12期
169-171
,共3页
量子态%相干分析%WMSN%约简算法
量子態%相榦分析%WMSN%約簡算法
양자태%상간분석%WMSN%약간산법
quantum states%coherent analysis%WMSN%reduction algorithm
无线多媒体传感网络(WMSN)云执行信息数据量大,实时性要求较高,需要对云执行信息进行分簇约简,提高WMSN的纠错能力和延长网络生命期。提出一种基于量子态相干分析的WMSN云执行信息分簇约简算法,基于量子遗传算法的WMSN网络模型,得到网络中多媒体节点的最大部署密度,采用量子态相干分析算法,进行信息数据寻优,设计WMSN云执行信息分簇策略,得到量子群移动构造的信息素约简后的空间采样分簇重构。实验得出,采用该算法,WMSN中的执行信息得到有效合理规划,分簇空间实现降秩处理,任务执行路径实现最优化模拟生成,执行同步误差较传统方法较小,从而保证了WMSN的系统稳定性和可靠性。
無線多媒體傳感網絡(WMSN)雲執行信息數據量大,實時性要求較高,需要對雲執行信息進行分簇約簡,提高WMSN的糾錯能力和延長網絡生命期。提齣一種基于量子態相榦分析的WMSN雲執行信息分簇約簡算法,基于量子遺傳算法的WMSN網絡模型,得到網絡中多媒體節點的最大部署密度,採用量子態相榦分析算法,進行信息數據尋優,設計WMSN雲執行信息分簇策略,得到量子群移動構造的信息素約簡後的空間採樣分簇重構。實驗得齣,採用該算法,WMSN中的執行信息得到有效閤理規劃,分簇空間實現降秩處理,任務執行路徑實現最優化模擬生成,執行同步誤差較傳統方法較小,從而保證瞭WMSN的繫統穩定性和可靠性。
무선다매체전감망락(WMSN)운집행신식수거량대,실시성요구교고,수요대운집행신식진행분족약간,제고WMSN적규착능력화연장망락생명기。제출일충기우양자태상간분석적WMSN운집행신식분족약간산법,기우양자유전산법적WMSN망락모형,득도망락중다매체절점적최대부서밀도,채용양자태상간분석산법,진행신식수거심우,설계WMSN운집행신식분족책략,득도양자군이동구조적신식소약간후적공간채양분족중구。실험득출,채용해산법,WMSN중적집행신식득도유효합리규화,분족공간실현강질처리,임무집행로경실현최우화모의생성,집행동보오차교전통방법교소,종이보증료WMSN적계통은정성화가고성。
Wireless multimedia sensor networks (WMSN) has a large amount of cloud information, it needs high real-time requirements, the implementation of information of cloud cluster reduction is called, and the error correcting capability of WMSN and prolong the network lifetime should be improved. A coherent analysis based on the quantum states of the WM?SN cloud executive information clustering algorithm is proposed, WMSN network model based on quantum genetic algo?rithm the maximum multimedia nodes in the network deployment density is obtained, the quantum coherence analysis algo?rithm is realized, data optimization is obtained, we design WMSN cloud executive information clustering strategy, and get quantum group moving structure of pheromone after the reduction of the spatial sampling cluster reconstruction. Experi?ments show that, the implementation of WMSN information effectively and reasonably planning is nice, cluster space re?duced rank processing is realized, the simulation task execution path is optimized, perform the synchronization error is less than the conventional method, so as to guarantee the system stability and reliability of WMSN.