ABWOA: adaptive boundary whale optimization algorithm for large-scale digital twin network construction

Hao Feng, Kun Cao, Gan Huang, Hao Liu
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Abstract

Digital twin network (DTN) as an emerging network paradigm, have garnered growing attention. For large-scale networks, a crucial problem is how to effectively map physical networks onto the infrastructure platform of DTN. To address this issue, we propose a heuristic method of the adaptive boundary whale optimization algorithm (ABWOA) to solve the digital twin network construction problem, improving the efficiency and reducing operational costs of DTN. Extensive comparison experiments are conducted between ABWOA and various algorithms such as genetic algorithm, particle swarm optimization, artificial bee colony, differential evolution algorithm, moth search algorithm and original whale optimization algorithm. The experimental results show that ABWOA is superior to other algorithms in terms of solution quality, convergence speed, and time cost. It can solve the digital twin network construction problem more effectively.
ABWOA:大规模数字孪生网络构建的自适应边界鲸优化算法
数字孪生网络(DTN)作为一种新兴的网络范例,已引起越来越多的关注。对于大规模网络而言,如何有效地将物理网络映射到 DTN 的基础设施平台上是一个关键问题。针对这一问题,我们提出了一种启发式方法--自适应边界鲸优化算法(ABWOA)来解决数字孪生网络构建问题,从而提高 DTN 的效率并降低运营成本。ABWOA与遗传算法、粒子群优化算法、人工蜂群算法、差分进化算法、飞蛾搜索算法、原鲸优化算法等多种算法进行了广泛的对比实验。实验结果表明,ABWOA 在求解质量、收敛速度和时间成本方面都优于其他算法。它能更有效地解决数字孪生网络构建问题。
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