Multi-objective service composition optimization problem in IoT for agriculture 4.0

IF 3.3 3区 计算机科学 Q2 COMPUTER SCIENCE, THEORY & METHODS
Shalini Sharma, Bhupendra Kumar Pathak, Rajiv Kumar
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Abstract

One of the most well-known names that has recently attained new heights and set a standard is Internet of Things (IoT). IoT aims to connect all physical devices in such a way that they are subject to human control over the Internet.The emergence of IoT in almost all the industries has redesigned them including smart agriculture. In today’s world, the growth in agriculture sector is rapid, smarter and precise than ever. In case of IoT, the objects are termed as services, sometimes with similar functionalities but distinct quality of service parameters. As the user’s requirements are complex, a single service cannot fulfil them efficiently. So, service composition is the solution. These services known as atomic services, are represented as workflow, with each of them having distinct candidate composite services. Fulfilling these Quality of Service (QoS) constraints makes it a NP-hard problem which can’t be solved using traditional approaches. Hence, comes the concept of evolutionary approaches. In this paper one of the evolutionary approach- NSGA-II is used to optimize the production of apple by composing the various services, taking into account the cost and time as multi-objective problem to be solved. This is for the very first time that QoS aware service composition problem has been optimized in smart agriculture as found in the literature. Results are further compared with multi-objective genetic algorithm (MOGA) and it has been found that NSGA-II outperforms MOGA by generating well-proportioned pareto optimal solutions.

Abstract Image

农业 4.0 物联网中的多目标服务组合优化问题
物联网(IoT)是最近达到新高度并制定标准的最著名的名称之一。物联网的目的是将所有物理设备连接起来,使它们能够通过互联网接受人类的控制。物联网在几乎所有行业的出现都对它们进行了重新设计,包括智能农业。在当今世界,农业部门的发展比以往任何时候都要迅速、智能和精确。在物联网中,物体被称为服务,有时具有相似的功能,但服务质量参数却截然不同。由于用户的需求非常复杂,单一服务无法有效满足这些需求。因此,服务组合是一种解决方案。这些服务被称为原子服务,表现为工作流,其中每个服务都有不同的候选复合服务。满足这些服务质量(QoS)约束是一个 NP 难问题,传统方法无法解决。因此,进化方法的概念应运而生。本文采用了一种进化方法--NSGA-II,通过组合各种服务来优化苹果的生产,并将成本和时间作为多目标问题加以解决。这是文献中首次在智慧农业中对 QoS 感知服务组合问题进行优化。研究结果与多目标遗传算法(MOGA)进行了进一步比较,发现 NSGA-II 生成的帕累托最优解比例合理,优于 MOGA。
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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来源期刊
Computing
Computing 工程技术-计算机:理论方法
CiteScore
8.20
自引率
2.70%
发文量
107
审稿时长
3 months
期刊介绍: Computing publishes original papers, short communications and surveys on all fields of computing. The contributions should be written in English and may be of theoretical or applied nature, the essential criteria are computational relevance and systematic foundation of results.
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