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引用次数: 0
摘要
在本文中,我们探讨了物联网传感器寿命、服务延迟和覆盖范围等方面的关键挑战,这些都会影响智能农业应用中的能耗。为了在提高服务质量(QoS)的同时延长智能传感器的能效,我们引入了一种新型优化算法。这种创新方法被称为 "基于适应的混合进化算法",它结合了灰狼优化算法(GWO)和差分进化算法(DE)的优势。该方法涉及一种基于适应性的新策略,并结合了一种混合算法,可协同 GWO 和 DE 算法的探索和利用能力。利用这种混合方法,可以从 GWO 和 DE 算法框架中精心选择最佳突变新适应服务。值得注意的是,该算法的控制参数可通过从先前的进化搜索中获得的洞察力进行自主调整。此外,我们还通过整合 GWO 算法的熟练搜索能力来增强基于 DE 的交叉技术,该算法在处理连续全局优化问题方面享有盛誉。为了验证我们的方法,我们将其应用于物联网场景,并通过全面考虑能耗、覆盖率、寿命和延迟的适应度函数来优化 QoS。与标准算法的比较评估强调了我们提出的方法的优越性能,尤其是在应用于物联网智能农业设置方面。
Improving quality of service for Internet of Things(IoT) in real life application: A novel adaptation based Hybrid Evolutionary Algorithm
In this paper, we address critical challenges in IoT sensor lifespan, service latency, and coverage area, all impacting energy consumption in smart agriculture applications. To enhance the quality of service (QoS) while prolonging the energy efficiency of smart sensors, a novel optimization algorithm is introduced. Referred to as the ”Adaptation-Based Hybrid Evolutionary Algorithm,” this innovative approach combines the strengths of Grey Wolf Optimizers (GWO) and Differential Evolution (DE) algorithms. The methodology involves a new adaptation-based strategy and incorporates a hybrid algorithm that synergizes the exploratory and exploitative capabilities of both GWO and DE algorithms. This hybrid approach is leveraged to meticulously select optimal mutation new adaptation services, drawing from the GWO and DE algorithm frameworks. Notably, the algorithm’s control parameters autonomously adjust through insights gained from prior evolutionary searches. Furthermore, we enhance the DE-based crossover technique by integrating the proficient search capabilities of the GWO algorithm, renowned for tackling continuous global optimization problems. To validate our approach, we apply it to IoT scenarios and optimize QoS through a fitness function that comprehensively accounts for energy consumption, coverage rate, lifespan, and latency. Comparative evaluations against standard algorithms underscore the superior performance of our proposed methodology, particularly evident in its application to IoT-smart agriculture settings.
期刊介绍:
Internet of Things; Engineering Cyber Physical Human Systems is a comprehensive journal encouraging cross collaboration between researchers, engineers and practitioners in the field of IoT & Cyber Physical Human Systems. The journal offers a unique platform to exchange scientific information on the entire breadth of technology, science, and societal applications of the IoT.
The journal will place a high priority on timely publication, and provide a home for high quality.
Furthermore, IOT is interested in publishing topical Special Issues on any aspect of IOT.
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