MRPGA:一种基于遗传算法的信息中心网络内缓存

Fan Yang, Zerui Tian
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引用次数: 1

摘要

网络内缓存是ICN体系结构的一个基本特性。传统的ICN是分布式的,这意味着内容块的位置无法精确调整。因此,传统ICN的缓存分配很难接近优化。借助SDN提供的集中控制器,ICN可以高度灵活地控制缓存分配。启发式算法已被应用于集中控制器ICN的缓存分配问题,但由于其随机性的特点,无法保证解决方案的可行性。本文提出了一种基于遗传算法的MRPGA缓存策略。MRPGA的机制保证了解的可行性,加快了收敛速度。仿真结果表明,与遗传算法相比,MRPGA算法在较短的时间内得到了更好的缓存分布。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
MRPGA: A Genetic-Algorithm-based In-network Caching for Information-Centric Networking
In-network caching is a basic feature of ICN architecture. Traditional ICN is distributed, which means the locations of content blocks cannot be adjusted precisely. Therefore, the cache allocation in traditional ICN is hard to approach optimization. With the aid of centralized controllers provided by SDN, ICN can manipulate the cache allocation with high flexibility. Heuristic algorithms have been applied to the cache allocation of ICN with centralized controllers but cannot guarantee the feasibility of solutions because of the feature of randomness. This paper proposes a caching strategy named MRPGA based on genetic algorithms. The mechanism of MRPGA guarantees the feasibility of solutions and accelerates convergence. Also, the simulations show that MRPGA figures out a better cache distribution in a shorter time than the genetic algorithm.
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