面向工业 5.0 的可解释人工智能:愿景、架构和潜在方向

IF 7.9 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Open Journal of Industry Applications Pub Date : 2024-03-09 DOI:10.1109/OJIA.2024.3399057
Chandan Trivedi;Pronaya Bhattacharya;Vivek Kumar Prasad;Viraj Patel;Arunendra Singh;Sudeep Tanwar;Ravi Sharma;Srinivas Aluvala;Giovanni Pau;Gulshan Sharma
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引用次数: 0

摘要

工业革命已转向工业 5.0,通过在关键决策过程中引入人为因素,重塑工业 4.0 的操作流程。工业 5.0 将通过网络物理系统(CPS)、人工智能(AI)和大数据分析等变革性技术实现大规模定制。在工业 5.0 中,人工智能模型必须是透明、有效和可解释的。人工智能模型采用机器学习和深度学习机制,使工业流程自主化,减少停机时间,并提高运营和维护成本。然而,这些模型在学习过程中需要可解释性。因此,可解释的人工智能(EXAI)增加了可解释性,改善了对关键工业流程的诊断,增强了机器对人类的解释,反之亦然。最近对 EXAI 在工业应用中的研究主要针对 EXAI 模型和基本假设。然而,针对将 EXAI 与以人为本的流程进行整体整合的研究较少,而这种整合推动了工业 5.0 的垂直应用。因此,为了填补这一空白,我们提出了一项同类首创的调查,系统地探讨 EXAI 集成及其在工业 5.0 应用中的潜力。首先,我们介绍了 EXAI 在工业 5.0 和 CPS 中的背景,以及基于 EXAI 的工业 5.0 参考架构和对大型语言模型的见解。然后,根据研究问题,介绍了工业 5.0 中 EXAI 的解决方案分类法,并通过应用用例(云、数字双胞胎、智能电网、增强现实和无人机)为其提供了有力支持。最后,讨论了 EXAI 在制造成本评估中的案例研究,随后讨论了未决问题和未来方向。该调查旨在扩展新颖的原型和设计,以实现基于 EXAI 的实时工业 5.0 应用。
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Explainable AI for Industry 5.0: Vision, Architecture, and Potential Directions
The Industrial Revolution has shifted toward Industry 5.0, reinventing the Industry 4.0 operational process by introducing human elements into critical decision processes. Industry 5.0 would present massive customization via transformative technologies, such as cyber-physical systems (CPSs), artificial intelligence (AI), and big data analytics. In Industry 5.0, the AI models must be transparent, valid, and interpretable. AI models employ machine learning and deep learning mechanisms to make the industrial process autonomous, reduce downtime, and improve operational and maintenance costs. However, the models require explainability in the learning process. Thus, explainable AI (EXAI) adds interpretability and improves the diagnosis of critical industrial processes, which augments the machine-to-human explanations and vice versa. Recent surveys of EXAI in industrial applications are mostly oriented toward EXAI models, the underlying assumptions. Still, fewer studies are conducted toward a holistic integration of EXAI with human-centric processes that drives the Industry 5.0 applicative verticals. Thus, to address the gap, we propose a first-of-its-kind survey that systematically untangles EXAI integration and its potential in Industry 5.0 applications. First, we present the background of EXAI in Industry 5.0 and CPSs and a reference EXAI-based Industry 5.0 architecture with insights into large language models. Then, based on the research questions, a solution taxonomy of EXAI in Industry 5.0 is presented, which is ably supported by applicative use cases (cloud, digital twins, smart grids, augmented reality, and unmanned aerial vehicles). Finally, a case study of EXAI in manufacturing cost assessment is discussed, followed by open issues and future directions. The survey is designed to extend novel prototypes and designs to realize EXAI-based real-time Industry 5.0 applications.
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