Mist and Edge Computing Cyber-Physical Human-Centered Systems for Industry 5.0: A Cost-Effective IoT Thermal Imaging Safety System

Fraga‐Lamas, Paula; Barros, Daniel; Lopes, Sérgio Ivan; Fernández‐Caramés, Tiago M.

doi:10.3390/s22218500

Cited by 19 publications

(6 citation statements)

References 88 publications

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“…Paula Fraga-Lamas et al [96] proposed a mist/edge computing cyber-physical humancentred system (CPHS) that uses low-cost hardware to detect human proximity to avoid risky situations in industrial scenarios. The proposed system was evaluated in a real-world scenario, where the maximum latency was reduced and low computational complexity was preserved.…”

Section: Data Transmission Storage and Analysis Technologiesmentioning

confidence: 99%

Towards a Human-Centric Digital Twin for Human–Machine Collaboration: A Review on Enabling Technologies and Methods

Krupas,

Kajati,

Liu

et al. 2024

Sensors

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With the intent to further increase production efficiency while making human the centre of the processes, human-centric manufacturing focuses on concepts such as digital twins and human–machine collaboration. This paper presents enabling technologies and methods to facilitate the creation of human-centric applications powered by digital twins, also from the perspective of Industry 5.0. It analyses and reviews the state of relevant information resources about digital twins for human–machine applications with an emphasis on the human perspective, but also on their collaborated relationship and the possibilities of their applications. Finally, it presents the results of the review and expected future works of research in this area.

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Section: Data Transmission Storage and Analysis Technologiesmentioning

confidence: 99%

Towards a Human-Centric Digital Twin for Human–Machine Collaboration: A Review on Enabling Technologies and Methods

Krupas,

Kajati,

Liu

et al. 2024

Sensors

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“…In these systems, embedded computers with sensors, actuators, controllers, and software in robots, humans, and network connectivity are combined to monitor and control physical processes, usually with real-time feedback loops of sensing, decision making, and evaluations of network compatibility, as commented by Dafflon et al [11]. Currently, the CPS designs are supported by many technological platforms such as the IoT, Fog, Edge Cloud, or 5G [12]. Furthermore, human-robot cooperation (HRC), for instance, studies the interactions between humans and robots in critical scenarios in a factory where humans and robots must work together, applying dynamic planning and safe routes for autonomous robots, as in the study by Maruyama et al [13].…”

Section: Dt Concept and Its Adoptionmentioning

confidence: 99%

Digital Twins in Software Engineering—A Systematic Literature Review and Vision

Guinea-Cabrera,

Holgado-Terriza

2024

Applied Sciences

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Digital twins are a powerful consequence of digital transformation. In fact, they have been applied to many industries to enhance operations, predict needs, improve decision making, or optimize performance, even though the definition of digital twins is still evolving. However, their impact on the software industry is still limited. Thus, this work aims to analyze the current adoption of digital twins in the software industry as a potential path to integrate them into application lifecycle management. To achieve this objective, first, the significant characteristics of current digital twins are analyzed in their application to manufacturing to understand how the knowledge and the lessons learned can be transferred to the software industry. Second, a systematic literature review was conducted on Scopus, the Web of Science, and the ScienceDirect database. The literature review revealed 93 documents after data screening and cleaning 251 initial documents. Our main findings are that digital twins are already influencing and will significantly affect the software industry, revolutionizing various aspects of the software development lifecycle. This study tackles what identifies a digital twin in the software industry, the specific domains and areas where they can be applied in the software lifecycle, and the proposed approaches explored to build digital twins for developing, deploying, and maintaining software systems. Finally, this study proposes some guidelines for building digital twins in the context of application lifecycle management. Determining an appropriate roadmap shortly is essential to achieve a widespread applicability to building suitable digital twins and preparing organizations for the software industry.

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“…There were more than 70 research areas on digital twin in the supply chain. The top 10 research areas were engineering (1681), computer science (847), automation control systems (345), operations research/management science (265), materials science (249), telecommunications (198), chemistry (189), science technology other topics (159), physics (145), and energy fuels (109). Table 3 shows the top 20 research areas on digital twin in the supply chain.…”

Section: Research Areamentioning

confidence: 99%

“…Digital twin as an enabler in Industry 5.0 consists of seven elements, namely, technologies, humans, management, organizations, scopes, tasks, and modelling, while the types of digital twin in the supply chain involve product, process, organization, supply chain, and network-ofnetworks [158]. In using digital twin for Industry 5.0, the cyber-physical manufacturing system has now been shifted to cyber-physical human-centered systems for smart and sustainable manufacturing [159,160].…”

Section: Prosperity Stage (2021-present)mentioning

confidence: 99%

A Bibliometric Analysis of Digital Twin in the Supply Chain

Lam,

Lee

2023

Mathematics

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Digital twin is the digital representation of an entity, and it drives Industry 4.0. This paper presents a bibliometric analysis of digital twin in the supply chain to help researchers, industry practitioners, and academics to understand the trend, development, and focus of the areas of digital twin in the supply chain. This paper found several key clusters of research, including the designing of a digital twin model, integration of a digital twin model, application of digital twin in quality control, and digital twin in digitalization. In the embryonic stage of research, digital twin was tested in the production line with limited optimization. In the development stage, the importance of digital twin in Industry 4.0 was observed, as big data, machine learning, Industrial Internet of Things, blockchain, edge computing, and cloud-based systems complemented digital twin models. Digital twin was applied to improve sustainability in manufacturing and production logistics. In the current prosperity stage with high annual publications, the recent trends of this topic focus on the integration of deep learning, data models, and artificial intelligence for digitalization. This bibliometric analysis also found that the COVID-19 pandemic drove the start of the prosperity stage of digital twin research in the supply chain. Researchers in this field are slowly moving towards applying digital twin for human-centric systems and mass personalization to prepare to transit to Industry 5.0.

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Mist and Edge Computing Cyber-Physical Human-Centered Systems for Industry 5.0: A Cost-Effective IoT Thermal Imaging Safety System

Cited by 19 publications

References 88 publications

Towards a Human-Centric Digital Twin for Human–Machine Collaboration: A Review on Enabling Technologies and Methods

Towards a Human-Centric Digital Twin for Human–Machine Collaboration: A Review on Enabling Technologies and Methods

Digital Twins in Software Engineering—A Systematic Literature Review and Vision

A Bibliometric Analysis of Digital Twin in the Supply Chain

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