Towards Industry 5.0 and Digital Circular Economy: Current Research and Application Trends

Voulgaridis, Konstantinos; Λάγκας, Θωμάς; Sarigiannidis, Panagiotis

doi:10.1109/dcoss54816.2022.00037

Cited by 11 publications

(6 citation statements)

References 24 publications

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“…Some of the technologies that can be adopted to manage environmental issues in the construction industry are artificial intelligence, machine learning, digital twin, sensors and trackers. As displayed in Table 4, artificial intelligence has been used for waste reduction (Adel, 2022), and for sorting and managing waste (Voulgaridis et al ., 2022); big data analytics and machine learning for renewable energy systems (Mostafa et al ., 2022), digital twin for building energy management (Agouzoul et al ., 2021), sensors for tracking environmental metrics such as indoor air quality, atmospheric pressure, noise, humidity and temperature (Svertoka et al ., 2021) and trackers for tracking environmental features of buildings, Co2 levels, temperature, humidity, pressure, embodied energy (Nahavandi, 2019).…”

Section: Methodsmentioning

confidence: 99%

Research trends in industry 5.0 and its application in the construction industry

Tunji-Olayeni,

Aigbavboa,

Oke

et al. 2023

TECHS

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PurposeIndustry 5.0 provides significant social, environmental and economic benefits over previous industrial revolutions. However, research in the field of industry 5.0 is still at a very nascent stage. Little is known about research trends in the field and its applications in specific sectors as construction which have relatively low sustainability index. Hence, this study aims to explore research trends in industry 5.0 and its applications in the construction industry.Design/methodology/approachThe study adopted a bibliometric analysis with the use of the vosviewer. The main search words used in the study were “Industry 5.0”, “Society 5.0” AND “Fifth Industrial Revolution”. Initial extracted papers with these keywords were 1036. After refining based on language, document type, key words and timeframe, a total of 188 papers were found suitable for the analysis.FindingsThe most impactful research on Industry 5.0 to date was from the United States, Australia and Sweden while the journal sustainability was found to be the highest document source on Industry 5.0. The application areas of industry 5.0 in the construction industry include health and safety, collaborative working, waste management, measurement of environmental features (indoor air quality, atmospheric pressure, noise, humidity and temperature) and forecasting of environmental, social or financial outcomes.Research limitations/implicationsThe study used review based papers which form the bulk of the existing research on industry 5.0. This limits understanding of the practical applications, benefits and challenges associated with the use of industry 5.0.Originality/valueThis work contributes to the theory and practice of industry 5.0 by providing baseline data for future research directions on industry 5.0. The work specifically highlights the application areas of industry 5.0 in the construction industry and also indicates the need for questionnaire, interviews or case study based research to enhance understanding of the practical applications of industry 5.0.

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Section: Methodsmentioning

confidence: 99%

Research trends in industry 5.0 and its application in the construction industry

Tunji-Olayeni,

Aigbavboa,

Oke

et al. 2023

TECHS

View full text Add to dashboard Cite

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“…• Smart Contract Capability: Smart contracts allow for the automation of processes, enforcement of rules, and reduction of manual interventions and errors. In the realm of DPPs, this translates to enhanced efficiency, accuracy, and reliability of operations [39]. • Data Integrity and Security: Ensuring the integrity and security of DPP data is non-negotiable [40].…”

Section: Key Features Required For Implementing Dpps In Blockchainmentioning

confidence: 99%

Collaborative Smart Production Supply Chains with Blockchain Based Digital Product Passports

Stodt,

Maisch,

Ruf

et al. 2024

Preprint

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For the purpose of improve the sustainability of products sold in the EU, Digital Product Passports is a mandatory solution. These passports would systematically gather information about products, such as detailing the materials involved to aid recycling and remanufacturing efforts, or recording the emissions produced throughout the manufacturing process. The overall goal is the establishment of a circular economy in the EU. Current research on Digital Product Passports is focused on collating content for sector-specific applications. However, achieving sustainability goals through Digital Product Passports will require new methods and technical solutions for digital collaboration between supply chain participants, especially in the manufacturing sector. Collaborative work on Digital Product Passports requires trust and traceability in data and access management to ensure privacy over the data contained. One way to enable this securely and confidentially is through the use of blockchain technology, in which stored data cannot be concealed, which is key to the traceability of digital product data documentation. This paper therefore presents a concept for the implementation of generically applicable cross-industry blockchain-based digital product passports. To this end, generic supply chain processes have been abstracted and condensed into the architecture of smart contracts. Great attention is paid to the establishment of traceability as well as privacy through the selection of the blockchain technology Secret Network in combination with Gaia-X functionalities. An illustrative use case for digital product passports in manufacturing is used to demonstrate the applicability of the presented concept. In this use case information about the digital nameplate and carbon footprint is exchanged securely and confidentially in a multi-tenant supply chain network based on the Industry 4.0 infomation model of the Asset Administration Shell.

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“…"Article" leads with 151 documents [62][63][64][65][66][67][68][69][70][71]. It is followed in second place by "Conference paper", with 37 publications [72][73][74][75][76][77][78][79][80]. In third place is "Review", with 26 studies [52][53][54][55]81,82].…”

Section: Summary Of Main Informationmentioning

confidence: 99%

Industry 5.0: Tracking Scientific Activity on the Most Influential Industries, Associated Topics, and Future Research Agenda

et al. 2023

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Industry 5.0 arrived and sounded the alarms, warning entrepreneurs to adopt it as quickly as possible; the advantage is that this industry is still in its preliminary stages. However, there is little research on this model in the literature. In this context, the objective of this study was to analyze the current state of industry 5.0 in 215 publications from the Scopus database during the period 2019–2022. The applied methodology was quantitative analysis, with a bibliometric approach supported by the VOSviewer and RStudio software, in addition to the Microsoft Excel application. The results showed: (1) an exponential growth of article and conference paper publications in 2022, all indexed in journals of subject areas such as engineering and computer science; (2) four more industries influenced by i5.0, where the electronics sector leads well above manufacturing, energy and public service; (3) seven research topics associated with i5.0 that deal with the transition from industry 4.0 to 5.0; and (4) six little-explored research topics that would help i5.0 move to a new stage and which are related to environmental sustainability, social sustainability, cobots, bioeconomy, smart cities, and sentiment analysis. This study found a gap in the industry 5.0 literature; therefore, this document serves as a guide for future research.

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Towards Industry 5.0 and Digital Circular Economy: Current Research and Application Trends

Cited by 11 publications

References 24 publications

Research trends in industry 5.0 and its application in the construction industry

Research trends in industry 5.0 and its application in the construction industry

Collaborative Smart Production Supply Chains with Blockchain Based Digital Product Passports

Industry 5.0: Tracking Scientific Activity on the Most Influential Industries, Associated Topics, and Future Research Agenda

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