Virtual reality in manufacturing: immersive and collaborative artificial-reality in design of human-robot workspace

Malik, Ali Ahmad; Masood, Tariq; Bilberg, Arne

doi:10.1080/0951192x.2019.1690685

Cited by 110 publications

(54 citation statements)

References 35 publications

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“…The other combines the physical task and the virtual task to create a real-time, skills-based robotic production line accurately allocating a task to the human or robot based on the optimum production they could respectively achieve [1]. Both papers, through the use of case studies, identify the benefits of digitalisation, but both also cite the challenges with seamless integration, something needed for the effective running of an assembly line and Digital Twins [2] [1] [89].…”

Section: C) System Design and Developmentmentioning

confidence: 99%

Digital Twin: Enabling Technologies, Challenges and Open Research

et al. 2020

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Digital Twin technology is an emerging concept that has become the centre of attention for industry and, in more recent years, academia. The advancements in industry 4.0 concepts have facilitated its growth, particularly in the manufacturing industry. The Digital Twin is defined extensively but is best described as the effortless integration of data between a physical and virtual machine in either direction. The challenges, applications, and enabling technologies for Artificial Intelligence, Internet of Things (IoT) and Digital Twins are presented. A review of publications relating to Digital Twins is performed, producing a categorical review of recent papers. The review has categorised them by research areas: manufacturing, healthcare and smart cities, discussing a range of papers that reflect these areas and the current state of research. The paper provides an assessment of the enabling technologies, challenges and open research for Digital Twins.

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Section: C) System Design and Developmentmentioning

confidence: 99%

Digital Twin: Enabling Technologies, Challenges and Open Research

et al. 2020

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“…Unusual collaborations are being forged between governments, manufacturers of similar as well as different products to adapt, ramp-up and reconfigure to supply medical ventilators. The resilience and changeability maybe achieved through emerging digital technologies [ 41 , 77 , 78 ]. Efforts are being made globally by many research communities to fulfil the demand of ventilators as well as other personal protective equipment (PPEs).…”

Section: Discussionmentioning

confidence: 99%

“…Industrial automation of physical tasks is greatly driven by robots in today’s manufacturing [ 40 ]. However, robots remain too inflexible [ 38 ] and are impractical when they need to coexist with humans [ 41 ]. It takes weeks to integrate a robot in a production system; with little to no possibility of any modifications without considerable efforts.…”

Section: Theoretical Backgroundmentioning

confidence: 99%

Reconfiguring and ramping-up ventilator production in the face of COVID-19: Can robots help?

Malik

Masood

Kousar

2021

Journal of Manufacturing Systems

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Highlights As the COVID-19 pandemic expands, causing a shortage of medical supplies, a key piece of equipment has been ventilator. The manufacturing systems of today are designed for mass production with minimum product variability at competitive cost Besides high potential of cobotic automation, their application in assembly is limited Collaborative robots can form reconfigurable manufacturing systems and can ramp up production. Modularization, plug-&-play hardware and digital twins are key enablers for fast (re) configuration of cobots.

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“…Systematic model-driven approaches to enabling competitive design and change capability in manufacturing enterprises exist Masood and Weston, 2012), covering various production management and modelling levels with views of product dynamics, customer order decoupling points, work dynamic, performance metrics, enterprise modelling (static) and simulation modelling. A recent example is related to digital twin based simulations of collaborative robots for reconfiguring existing factories and ramping-up production of medical ventilators in the face of COVID-19 pandemic while following social distancing rules (Malik et al 2020a;Malik et al 2020b).…”

Section: Modelling Approaches Used In Change Assessment Methods (C3)mentioning

confidence: 99%

“…Vernadat et al (2018) highlighted recent advances and new perspectives of information systems and knowledge management in industrial engineering, which include three major thrusts in production research. First thrust is on Industry 4.0 technologies for the factories of the future including Small and Medium Enterprises (Masood and Sonntag 2020), which includes technologies like augmented reality (Egger and Masood 2020;Masood and Egger 2019;Masood and Egger 2020), immersive and collaborative artificial-reality in design of human-robot workspaces (Malik, Masood, and Bilberg 2020a;Malik, Masood, and Kousar 2020b;Malik, Masood, and Kousar 2020c). Second thrust is on creating Sˆ3 enterprises based on sensing, smart and sustainability capabilities while third thrust is on cloud manufacturing which is linked to networked organisations (Rashid et al 2018;Vernadat et al 2018).…”

Section: Introductionmentioning

confidence: 99%

Characteristics of changeable systems across value chains

Masood

Kern

Clarkson

2020

International Journal of Production Research

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Engineering changes (ECs) are inevitable for businesses due to increasing innovation, shorter lifecycles, technology and process improvements and cost reduction initiatives. The ECs could propagate and cause further changes due to existing system dependencies, which can be challenging. Hence, change management (CM) is a relevant discipline, which aims to reduce the impact of changes. EC assessment methods form the basis of CM that support in assessing system dependencies and the impact of changes. However, understanding of which factors influence the changeability across value chains (VCs) is limited. This research adopted a VC approach to EC assessment. Dependencies in products and processes were captured, followed by risk (i.e. likelihood x impact) assessment of ECs using change prediction method (CPM). Four industrial case studies were conducted (3x automotive, 1x furniture manufacturing) to identify design (product) and manufacturing (process) elements with high risk to be affected by ECs. Based on the case results, characteristics were identified that influence changeability across VC. This contributed to the CM domain while businesses could also use the results to assess ECs across VC, and improve the design of products and processes by increasing their changeability across VC e.g. by proactive decoupling or reactive handling of system dependencies.

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Virtual reality in manufacturing: immersive and collaborative artificial-reality in design of human-robot workspace

Cited by 110 publications

References 35 publications

Digital Twin: Enabling Technologies, Challenges and Open Research

Digital Twin: Enabling Technologies, Challenges and Open Research

Reconfiguring and ramping-up ventilator production in the face of COVID-19: Can robots help?

Characteristics of changeable systems across value chains

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