Introduction to the Special Issue on Smart Systems for Industry 4.0 and IoT

IF 2.5 Q2 COMPUTER SCIENCE, INFORMATION SYSTEMS ACM Transactions on Management Information Systems Pub Date : 2022-12-31 DOI:10.1145/3583985
Mu-Yen Chen, B. Thuraisingham, E. Eğrioğlu, J. J. Rubio
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Abstract

The development of big data applications is driving the dramatic growth of hybrid data, often in the form of complex sets of cross-media content including text, images, videos, audios, and time series. Tremendous volumes of these heterogeneous data are derived from multiple IoT sources and present new challenges for the design, development, and implementation of effective information systems and decision support frameworks tomeet heterogeneous computing requirements. Emerging technologies allow for the near real-time extraction and analysis of heterogeneous data to find meaningful information. Machine-learning algorithms allow computers to learn automatically, analyzing existing data to establish rules to predict outcomes of unknown data. However, traditional machine learning approaches do not meet the needs for Internet of Things (IoT) applications, calling for new technologies. Deep learning is a good example of emerging technologies that tackle the limitations of traditional machine learning through feature engineering, providing superior performance in highly complex applications. However, these technologies also raise new security and privacy concerns. Technology adoption and trust issues are of timely importance as well. Industrial operations are in themidst of rapid transformations, sometimes referred to as Industry 4.0, Industrial Internet of Things (IIoT), or smart manufacturing. These transformations are bringing fundamental changes to factories and workplaces, making them safer and more efficient, flexible, and environmentally friendly. Machines are evolving to have increased autonomy, and new human-machine interfaces such as smart tools, augmented reality, and touchless interfaces are making interaction more natural. Machines are also becoming increasingly interconnected within individual factories as well as to the outside world through cloud computing, enabling many opportunities for operational efficiency and flexibility in manufacturing and maintenance. An increasing number of countries have put forth national advanced manufacturing development strategies, such as Germany’s Industry 4.0, the United States’ Industrial Internet and manufacturing system based on CPS (Cyber-Physical Systems), and China’s Internet Plus Manufacturing and Made in China 2025 initiatives. Smart Manufacturing aims to maximize transparency and access of all manufacturing process information across entire manufacturing supply chains and product lifecycles, with the Internet of Things (IoT) as a centerpiece to increase productivity and output value. This manufacturing revolution depends on technology connectivity and the contextualization of data, thus putting intelligent systems support and data science at the center of these developments.
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工业4.0和物联网智能系统特刊简介
大数据应用程序的发展正在推动混合数据的急剧增长,混合数据通常以跨媒体内容的复杂集合的形式出现,包括文本、图像、视频、音频和时间序列。大量这些异构数据来源于多个物联网来源,为设计、开发和实施有效的信息系统和决策支持框架以满足异构计算需求提出了新的挑战。新兴技术允许对异构数据进行近乎实时的提取和分析,以找到有意义的信息。机器学习算法允许计算机自动学习,分析现有数据以建立规则来预测未知数据的结果。然而,传统的机器学习方法不能满足物联网(IoT)应用的需求,需要新的技术。深度学习是新兴技术的一个很好的例子,它通过特征工程解决了传统机器学习的局限性,在高度复杂的应用中提供了卓越的性能。然而,这些技术也引发了新的安全和隐私问题。技术采用和信任问题也具有及时的重要性。工业运营正处于快速转型之中,有时被称为工业4.0、工业物联网(IIoT)或智能制造。这些变革正在给工厂和工作场所带来根本性的变化,使它们更安全、更高效、更灵活、更环保。机器正在进化,以提高自主性,新的人机界面,如智能工具、增强现实和非接触式界面,使交互更加自然。通过云计算,机器在单个工厂内部以及与外部世界的互联程度也越来越高,从而为制造和维护的运营效率和灵活性提供了许多机会。越来越多的国家提出了国家先进制造业发展战略,如德国的工业4.0、美国的工业互联网和基于CPS (Cyber-Physical Systems)的制造体系、中国的“互联网+制造”和“中国制造2025”等。智能制造旨在最大限度地提高整个制造供应链和产品生命周期中所有制造过程信息的透明度和访问权限,以物联网(IoT)为核心,以提高生产率和产值。这场制造业革命依赖于技术连接和数据情境化,因此将智能系统支持和数据科学置于这些发展的中心。
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来源期刊
ACM Transactions on Management Information Systems
ACM Transactions on Management Information Systems COMPUTER SCIENCE, INFORMATION SYSTEMS-
CiteScore
6.30
自引率
20.00%
发文量
60
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