TY - GEN
T1 - Autonomous Heavy-Duty Mobile Machinery
T2 - 2021 IEEE International Conference on Technology and Entrepreneurship, ICTE 2021
AU - Machado, Tyrone
AU - Fassbender, David
AU - Taheri, Abdolreza
AU - Eriksson, Daniel
AU - Gupta, Himanshu
AU - Molaei, Amirmasoud
AU - Forte, Paolo
AU - Rai, Prashant Kumar
AU - Ghabcheloo, Reza
AU - Makinen, Saku
AU - Lilienthal, Achim J.
AU - Andreasson, Henrik
AU - Geimer, Marcus
N1 - Publisher Copyright:
© 2021 IEEE.
PY - 2021/8/24
Y1 - 2021/8/24
N2 - Heavy-duty mobile machines (HDMMs) are a wide range of machinery used in diverse and critical application areas which are currently facing several issues like skilled labor shortages, poor safety records, and harsh work environments. Consequently, efforts are underway to increase automation in HDMMs for increased productivity and safety, eventually transitioning to operator-less autonomous HDMMs to address skilled labor shortages. However, HDMMs are complex machines requiring continuous physical and cognitive inputs from human operators. Thus, developing autonomous HDMMs is a huge challenge, with current research and developments fragmented into several independent research domains. Furthermore, autonomous HDMM technologies are a stack of several technologies requiring a convergence of diverse competencies from the different domains. Through this study, we provide an overview of the HDMM industry and use the bounded rationality concept to propose multidisciplinary collaborations for new developments in autonomous HDMMs. Furthermore, we apply the transaction cost economics framework to highlight the conceptual challenges and implications of these collaborations. Therefore, we bring together several domains of the HDMM industry to introduce autonomous HDMMs as a general and unified approach. The collaborative challenges and potentials are mapped out between the following topics: mechanical systems, AI methods, software systems, sensors, connectivity, simulations and process optimization, business cases, organization theories, and finally, regulatory frameworks. In doing so, we highlight the need for new and multidisciplinary perspectives that should be considered by academic and industrial practitioners working on the development and deployment of autonomous HDMMs.
AB - Heavy-duty mobile machines (HDMMs) are a wide range of machinery used in diverse and critical application areas which are currently facing several issues like skilled labor shortages, poor safety records, and harsh work environments. Consequently, efforts are underway to increase automation in HDMMs for increased productivity and safety, eventually transitioning to operator-less autonomous HDMMs to address skilled labor shortages. However, HDMMs are complex machines requiring continuous physical and cognitive inputs from human operators. Thus, developing autonomous HDMMs is a huge challenge, with current research and developments fragmented into several independent research domains. Furthermore, autonomous HDMM technologies are a stack of several technologies requiring a convergence of diverse competencies from the different domains. Through this study, we provide an overview of the HDMM industry and use the bounded rationality concept to propose multidisciplinary collaborations for new developments in autonomous HDMMs. Furthermore, we apply the transaction cost economics framework to highlight the conceptual challenges and implications of these collaborations. Therefore, we bring together several domains of the HDMM industry to introduce autonomous HDMMs as a general and unified approach. The collaborative challenges and potentials are mapped out between the following topics: mechanical systems, AI methods, software systems, sensors, connectivity, simulations and process optimization, business cases, organization theories, and finally, regulatory frameworks. In doing so, we highlight the need for new and multidisciplinary perspectives that should be considered by academic and industrial practitioners working on the development and deployment of autonomous HDMMs.
KW - augmentation
KW - automation
KW - autonomous
KW - collaboration
KW - mobile machinery
KW - transaction cost economics
UR - http://www.scopus.com/inward/record.url?scp=85119092411&partnerID=8YFLogxK
U2 - 10.1109/ICTE51655.2021.9584498
DO - 10.1109/ICTE51655.2021.9584498
M3 - Conference contribution
AN - SCOPUS:85119092411
T3 - 2021 IEEE International Conference on Technology and Entrepreneurship, ICTE 2021
BT - 2021 IEEE International Conference on Technology and Entrepreneurship, ICTE 2021
PB - Institute of Electrical and Electronics Engineers Inc.
Y2 - 24 August 2021 through 27 August 2021
ER -
