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Industrial metaverse for manufacturing systems: hype or future reality?

Nikolai Kazantsev, Russell Goh, Bethan Moncur, and Chander Velu

Our project aims to provide a coherent interdisciplinary summary of established knowledge from academia and practice on the application and potential benefits, barriers, and risks of a metaverse in manufacturing, mainly focusing on bridging technical and social insights.

Metaverse is expected to provide numerous benefits, particularly in production process optimisation, employee induction and collaboration. The most surprising research finding so far is just how varied the definitions of metaverse are. For our study, we define industrial metaverse as” a sensory environment that uses extended reality to blend the physical and digital worlds to transform how businesses design, manufacture and interact with objects”.

The existing industrial cases reveal technological barriers such as immaturity, lack of sufficiently strong communication networks and sustainability concerns. Other cases include cybersecurity risks like cyberattacks and data protection/privacy issues. The social barriers include jurisdictional and legislative difficulties, lack of cooperation between companies necessary to achieve interoperability and the need to change worker and user mindsets. 

Figure 1. Industrial metaverse as a new interface to the products’ manufacturing system

Although the data suggests immersion as a driving force of the metaverse[1], a full immersion can not be achieved without impacting the senses and feelings of a user. For example, in sensory marketing, similar impacts (experience stimuli) are used to trigger purchasing intention (Dewey, 1925; Schmitt, 1999), however, in the physical reality. Hence, we envision a similar trend in the digital world, where an industrial metaverse will extend the numeric and graphical data (such as reports) into coherent immersive experiences that will also affect feelings, Figure 2.

Figure 2. Industrial Metaverse as a combination of senses stimuli

Our conceptualisation efforts aim to prototype an industrial metaverse that activates several senses (sight, sound, temperature, and smell) and test how the extended experience triggers actions.

“Highly promising results are expected for the intersection of resilience and sustainability,” said Nikolai. “For example, based on the sensory marketing research that positions smell as the strongest attractor for purchasing decisions, we aim to virtualise the production conditions with sight, sound, temperature, and smell and enhance experience stimuli in the metaverse. We think it will better inform purchasing choice and support the demand pattern for clean energy, ethical production, and fewer emissions along supply chains.”

After the first results of the systematic literature review, we wish to explore the feasibility of the extended reality to shift decision-making towards more expensive but more sustainable decision-making along the manufacturing value chain[2]. Over the following months, our research aims to exemplify our concept using a scenario based on food manufacturing system for chocolate production. To do so, we will integrate the popular Augmented Reality platform with audio, temperature and smell generator devices to extend the experience for a policy-maker, manufacturer or customer making a hard choice between a cost-efficient vs. sustainable manufacturing system. This prototype will be used as a sensory dashboard for an extended representation of material sources, production conditions, carbon footprint and energy sources to better inform the stakeholder about the impacts of their decision.

“Carbon emission, working conditions, and energy consumption remain underexplored in the real world but visible in the metaverse. Hence, the metaverse can be used to raise awareness about manufacturing systems.”

Yet, It is unclear if being informed on carbon emissions in real-time will impact manufacturers’ use of their machines and shift the regulation imposed by policymakers. For example, would the smell of burning Amazon forests shift a consumer’s decision-making closer to more expensive sustainable purchase better than the printed carbon footprint number on the product package?

Figure 3. Industrial metaverse as a sensualisation of real-time data sharing   

The project has an open innovation philosophy, so we wish to create a discussion space around the metaverse application for manufacturing and are open to collaboration with the InterAct researchers and the industrial community.

To disseminate the findings, we plan to run a public event involving technology providers, industry, academia and stakeholders from the local public administration at the end of 2023.

References:

Academic

Dewey, J. (1981). The later works, 1925-1953 (Vol. 3). SIU Press.

Schmitt, B. (1999). Experiential marketing. Journal of marketing management15(1-3), 53-67.

Petit, O., Velasco, C., Wang, Q. J., & Spence, C. (2022). Consumer consciousness in multisensory extended reality. Frontiers in psychology13.

Industrial

https://www.radiantvisionsystems.com/blog/creating-full-sensory-experiences-future-ar/vr/mr/xr

https://www.ericsson.com/en/6g/internet-of-senses

https://www.bitstamp.net/learn/web3/extended-reality-virtual-reality-augmented-reality-and-more/

https://www.designnews.com/augmented-reality/metaverse-will-engage-all-five-senses


[1]64% of industrial cases describe metaverse as a realistic user experience

[2] The team is considering to apply for further funding via the newly launched Impact Booster Competition of Made Smarter Innovation Challenge

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Report Resources Tool Video Webinar

Business Model Innovation and Digital Servitization in UK Manufacturing Small and Medium Sized Enterprises

This project explores the application of digital servitization business models in the context of UK Manufacturing Small to Medium Sized Enterprises (SMEs), by empirically depicting its antecedents and firm-level implications. Following the completion of a large empirical study, the key contextual and organisational factors that determine successful implementation of business models have been identified. The study’s key findings suggest that SMEs can achieve high performance through adoption of digital servitization business models, depending on how well each model aligns with the organisation’s context and design.  

To assist the UK Manufacturing community, in addition to the main report, the project’s deliverables are accessible to stakeholders through its dedicated microsite, SME toolkit, video training manual and practitioner webinar.

Download “Business Model Innovation and Digital Servitization in UK Manufacturing Small and Medium Sized Enterprises - report” Business-Model-Innovation-and-Digital-Servitization.pdf – Downloaded 121 times – 1.46 MB

Project MicroSite 

The microsite provides SMEs with a valuable resource that practitioners can engage with, to better understand digital servitization and its corresponding business models. Developed in an illustrative manner, the microsite provides a visual overview of the study’s data and key findings and constitutes the project’s primary means of impact on business practice. 

SME Toolkit 

A key project output, the self-assessment toolkit aspires to assist SME principal decision-makers in diagnosing the contextual and organisational conditions of their business and determine the suitability of digital servitization business models. Toolkit users are invited to complete an anonymised questionnaire and in turn, they receive a recommendation of which business model might represent the best match to their current conditions. 

Video Training Manual 

The video training manual represents a step-by-step guide to the toolkit and provides users with the key terms of interest and the process of answering the toolkit questions.  

Online Webinar 

As a primary dissemination activity, the project’s first ex-post webinar has been delivered in early August 2023 to raise awareness about the project, communicate the study’s findings and promote the publication of the main report and its accompanying intellectual outputs. 

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News

InterAct Systematic Reviews second funding round – successful projects announced

InterAct is pleased to announce the recipients of our second round of Systematic Review funding. These two projects are led by Dr. Dalila Ribaudo of Aston University and Dr. Nikolai Kazantsev of the Institute for Manufacturing, University of Cambridge. The projects will focus on topics relating to ‘Manufacturing in the metaverse’ and ‘Perceptions of manufacturing’.

Manufacturing in the metaverse: Conceptual model and future research directions

Principal Investigator:

Professor Chander Velu – Institute for Manufacturing, University of Cambridge.

Lead researcher:

Dr. Nikolai Kazantsev – Institute for Manufacturing, University of Cambridge.

Project Outline:

The industrial metaverse uses ‘virtual and augmented reality to blend the physical and digital worlds to transform how businesses design, manufacture and interact with objects’.

The project aims to provide a coherent interdisciplinary summary of established knowledge from academia and practice on the application and potential benefits of a metaverse in manufacturing, mainly focusing on bridging technical and social insights.

The specific objectives are:

  1. To clarify the terminology, technologies, and roles the metaverse can play in manufacturing.
  2. To derive the barriers, drivers and benefits of adopting the metaverse for individuals, firms, the manufacturing ecosystem and the economy.
  3. To summarise a conceptual model and outline future research directions of an industrial metaverse in manufacturing.

The industrial metaverse is often explored solely from a technological perspective despite being a fast-growing field of study in various domains. As a result, complex terms and concepts are misinterpreted by the industry, resulting in an overlapping stack of technologies and, therefore, unclear evidence of the application of the concept in manufacturing.

By investigating overlooked social and economic factors behind metaverse applications, the project aims unlock the virtual space for goods manufacturing and transaction, and discover how the interactions between firms and customers happen.

The team is open for collaborations on this research. Please contact nk622@cam.ac.uk if you are interested.

The purpose of a potential collaboration would be to better inform research on the positioning of the metaverse as a technological tool in manufacturing.

The team are keen to hear from:

  • Industrial partners who have already applied some elements of virtual reality or who want to do so soon, but are unclear on how to progress due to the perceived risks or unclear benefits of the technology.
  • This could be technology providers, such as Vuforia, Hololens (MST), Meta or creators of alternative augmented reality glasses.

How to make manufacturing charming again? It is everything, everywhere, all at once.

Principal Investigator:

Dr. Dalila Ribaudo – Aston University

Co-investigators:

Dr. Guendalina Anzolin – University of Cambridge

Dr. Jennifer Castañeda-Navarrete – University of Cambridge

Project Outline:

The aim of this project is to conduct a comprehensive literature review of the perceptions of manufacturing, with a particular emphasis on international industrial strategies.

The team plans to analyse how perceptions of manufacturing have been changing across countries and how governments are taking actions to bring manufacturing back into the policy agenda. One of the main areas where this is happening is the adoption of digital technologies, a field where the changing features of manufacturing are evident.

For example, policy makers need to design industrial strategies that address both the increasingly higher requirement for skilled labour, and firms’ adoption of digital technologies, while also developing strategic sectors, such as semiconductors.

This study will reveal how countries prioritize manufacturing in the context of national and regional industrial strategies (i.e., for example with the levelling up agenda in the UK and the Innovation and Competition Act in the US.

There are four main topics the team will examine that can be linked to negative perceptions on manufacturing:

  1. It is believed to be a declining industry, replaced by services, especially in advanced economies.
  2. Manufacturing is a low-skilled and low-paying employment environment.
  3. Manufacturing is a dirty and polluting industry that harms the environment.
  4. Ideological as well as practical barriers for policymakers to provide sufficient attention to manufacturing.