饥饿游戏搜索优化与深度学习模型的可持续供应链管理

Zheng Xu, Deepak Kumar Jain, S. Neelakandan, Jemal Abawajy
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引用次数: 0

摘要

供应链网络是大多数商业环境中最重要的关注领域之一。区块链技术是供应链网络安全信息共享的可行选择。尽管在区块链的各个层面维护安全是困难的,但加密方法在现有的工作中是常用的。有效的供应链管理(SCM)为组织提供了各种各样的好处,例如增强客户满意度、增加操作效率、竞争优势和降低成本。潜在的农业和食品供应链供应链管理需要分销商、农民、零售商和利益相关者之间的协调和合作。区块链(BC)、传感器和数据分析等技术的使用可以提高可追溯性和可见性,减少浪费,并确保整个供应链的安全和质量。因此,本研究开发了一种基于深度学习的饥饿游戏搜索优化模型,用于可持续农业和食品供应链管理(HGSODL-ASCM)技术。HGSODL-ASCM技术的根本目标是改善农业和粮食商品生产和储存的决策过程,以优化收入。在提供的HGSODL-ASCM技术中,建立了一个双向长短期记忆(Bi-LSTM)模型来确定最大化利润所需的生产力和存储量。为了提高Bi-LSTM分类过程的性能,本文采用了HGSO算法。提出的HGSODL-ASCM技术可以通过与复杂的自适应环境的交互,独立地实现SCM策略。为了验证HGSODL-ASCM技术的改进性能,进行了一组简短的仿真。仿真结果表明,HGSODL-ASCM方法优于现有的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hunger games search optimization with deep learning model for sustainable supply chain management
Abstract The supply chain network is one of the most important areas of focus in the majority of business circumstances. Blockchain technology is a feasible choice for secure information sharing in a supply chain network. Despite the fact that maintaining security at all levels of the blockchain is difficult, cryptographic methods are commonly used in existing works. Effective supply chain management (SCM) offers various benefits to organizations, such as enhanced customer satisfaction, increased operational efficiency, competitive advantage, and cost reduction. Potential SCM for agricultural and food supply chains needs distributors, coordination and collaboration among farmers, retailers, and stakeholders. The use of technology like Block Chain (BC), sensors, and data analytics, can boost traceability and visibility, decrease waste, and ensure safety and quality throughout the supply chain. Therefore, this study develops a Hunger Games Search Optimization with Deep Learning Model for Sustainable agricultural and food Supply Chain Management (HGSODL-ASCM) technique. The fundamental goal of the HGSODL-ASCM technique is to improve decision-making processes for agricultural and food commodity production and storage in order to optimise revenue. In the provided HGSODL-ASCM technique, a bidirectional long short-term memory (Bi-LSTM) model is built to determine the amount of productivity and storage required to maximise profit. In order to boost the performance of the Bi-LSTM classification process, the HGSO algorithm has been utilized in this work. The presented HGSODL-ASCM technique can independently achieve the SCM policies via interaction with complicated and adaptive environments. A brief set of simulations were performed to ensure the improved performance of the HGSODL-ASCM technique. The simulation results demonstrated how superior the HGSODL-ASCM method is to other methods already in use.
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来源期刊
Discover Internet of Things
Discover Internet of Things Internet of Things (IoT)-
CiteScore
7.50
自引率
0.00%
发文量
6
审稿时长
28 days
期刊介绍: Discover Internet of Things is part of the Discover journal series committed to providing a streamlined submission process, rapid review and publication, and a high level of author service at every stage. It is an open access, community-focussed journal publishing research from across all fields relevant to the Internet of Things (IoT), providing cutting-edge and state-of-art research findings to researchers, academicians, students, and engineers. Discover Internet of Things is a broad, open access journal publishing research from across all fields relevant to IoT. Discover Internet of Things covers concepts at the component, hardware, and system level as well as programming, operating systems, software, applications and other technology-oriented research topics. The journal is uniquely interdisciplinary because its scope spans several research communities, ranging from computer systems to communication, optimisation, big data analytics, and application. It is also intended that articles published in Discover Internet of Things may help to support and accelerate Sustainable Development Goal 9: ‘Build resilient infrastructure, promote inclusive and sustainable industrialization and foster innovation’. Discover Internet of Things welcomes all observational, experimental, theoretical, analytical, mathematical modelling, data-driven, and applied approaches that advance the study of all aspects of IoT research.
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