OPTIMAL QUEUING STRATEGIES FOR AN M/G/1 RETRIAL QUEUE SYSTEM WITH RWV AND ISEV POLICIES

The ANZIAM journal Pub Date : 2024-03-19 DOI:10.1017/s1446181124000014

Z. CHEN, H. XU, H. HUO

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Abstract

Designing a reasonable M/G/1 retrial queue system that enhances service efficiency and reduces energy consumption is a challenging issue in Information and Communication Technology systems. This paper presents an M/G/1 retrial queue system incorporating random working vacation (RWV) and improved service efficiency during vacation (ISEV) policies, and examines its optimal queuing strategies. The RWV policy suggests that the server takes random working vacations during reserved idle periods, effectively reducing energy consumption. In contrast, the ISEV policy strives to augment service efficiency during regular working periods by updating, inspecting or maintaining the server on vacations. The system is transformed into a Cauchy problem to investigate its well-posedness and stability, employing operator semigroup theory. Based on the system’s stability, steady-state performance measures, such as service efficiency, energy consumption and expected costs, are quantified using the steady-state solution. The paper subsequently demonstrates the existence of optimal queuing strategies that achieve maximum efficiency and minimum expected costs. Finally, two numerical experiments are provided to illustrate the effectiveness of the system.

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采用 rwv 和 isev 策略的 m/g/1 复审队列系统的最佳排队策略

设计一个合理的 M/G/1 重审队列系统，以提高服务效率并降低能耗，是信息和通信技术系统中一个具有挑战性的问题。本文提出了一种包含随机工作休假（RWV）和休假期间提高服务效率（ISEV）策略的 M/G/1 重审队列系统，并研究了其最优排队策略。RWV 策略建议服务器在预留的空闲时段随机工作休假，从而有效降低能耗。相比之下，ISEV 策略则通过在假期更新、检查或维护服务器，努力提高正常工作期间的服务效率。利用算子半群理论，将该系统转化为考奇问题，以研究其好求性和稳定性。在系统稳定性的基础上，利用稳态解量化了服务效率、能耗和预期成本等稳态性能指标。论文随后证明了存在能实现最高效率和最低预期成本的最优排队策略。最后，提供了两个数值实验来说明系统的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The ANZIAM journal

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