Aiming at the disorder problem (i.e. uncertainty problem) of the utilization of network resources commonly existing in multi-hop transmission networks, the paper proposes the idea and the corresponding supporting theory, i.e. theory of network wave, by constructing volatility information transmission mechanism between the sending nodes and their corresponding receiving nodes of a pair of paths (composed of two primary paths), so as to improve the orderliness of the utilization of network resources. It is proved that the maximum asymptotic throughput of a primary path depends on its intrinsic period, which in itself is equal to the intrinsic interference intensity of a primary path. Based on the proposed theory of network wave, an algorithm for the transmission of information blocks based on the intrinsic period of a primary path is proposed, which can maximize the asymptotic throughput of a primary path. In the cases of traversals with equal opportunities, an algorithm for the cooperative volatility transmission of information blocks in a pair of paths based on the set of maximum supporting elements is proposed. It is proved that the algorithm can maximize the asymptotic joint throughput of a pair of paths. The research results of the paper lay an ideological and theoretical foundation for further exploring more general methods that can improve the orderly utilization of network resources.
翻译:本文针对多霍传输网络中普遍存在的网络资源使用混乱问题(即不确定性问题),提出了使用多霍传输网络中通常存在的网络资源的构想和相应的支持理论,即网络波理论,方法是在发送节点及其相应的接收对一对路径(由两种主要路径组成)之间构建波动信息传输机制,从而在发送节点及其相应接收对一路径(由两种主要路径组成)的对接节点之间建立波动信息传输机制,从而改进网络资源利用的有序性;证明主要路径的最大无症状吞吐量取决于其内在时间,这本身等于主要路径的内在干扰强度;根据拟议的网络波理论,即基于一条主要路径的内在时间段传递信息区块的算法,提出了基于一条最大支持要素的双轨迹合作性波动性传输信息块的算法;证明算法可以最大限度地扩大双轨路径的内在干扰强度;根据网络波浪的内在时间段,提出了基于网络内在时间段的内在干扰强度,即信息区块传输的算法,并提出了基于主要路径的内在时间段的传输算法,这种算法可以最大限度地利用一种理论基础,从而改进了文件的理论基础。
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