Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/cooperating-robots-for-flexible-manufacturing-seamless-human-robot-KaZz5f5MAb
References (23)
-
Loukas Rentzos, Stergios Papanastasiou, N. Papakostas, G. Chryssolouris (2013)
Augmented Reality for Human-Based Assembly: Using Product and Process Semantics -
Mauricio Hincapié, A. Caponio, Horacio Rios, Eduardo Mendívil (2011)
An introduction to Augmented Reality with applications in aeronautical maintenance2011 13th International Conference on Transparent Optical Networks
-
M. Houshmand, Bizhan Jamshidnezhad (2006)
An extended model of design process of lean production systems by means of process variablesRobotics and Computer-integrated Manufacturing, 22
-
G. Michalos, S. Makris, J. Spiliotopoulos, Ioannis Misios, Panagiota Tsarouchi, G. Chryssolouris (2014)
ROBO-PARTNER: Seamless Human-Robot Cooperation for Intelligent, Flexible and Safe Operations in the Assembly Factories of the Future☆Procedia CIRP, 23
-
Y. Koren, M. Shpitalni (2010)
Design of reconfigurable manufacturing systemsJournal of Manufacturing Systems, 29
-
N. Kousi, G. Michalos, Sotirios Aivaliotis, S. Makris (2018)
An outlook on future assembly systems introducing robotic mobile dual arm workersProcedia CIRP, 72
-
P. Milgram, F. Kishino (1994)
A Taxonomy of Mixed Reality Visual DisplaysIEICE Transactions on Information and Systems, 77
-
N. Kousi, Spyridon Koukas, G. Michalos, S. Makris, G. Chryssolouris (2016)
Service Oriented Architecture for Dynamic Scheduling of Mobile Robots for Material SupplyProcedia CIRP, 55
-
G. Michalos, P. Karagiannis, S. Makris, O. Tokcalar, G. Chryssolouris (2016)
Augmented Reality (AR) Applications for Supporting Human-robot Interactive CooperationProcedia CIRP, 41
-
B. Scholz-Reiter, M. Freitag (2007)
Autonomous Processes in Assembly SystemsCirp Annals-manufacturing Technology, 56
-
Hongyi Liu, Lihui Wang (2017)
An AR-based Worker Support System for Human-Robot CollaborationProcedia Manufacturing, 11
-
G. Michalos, S. Makris, Panagiota Tsarouchi, Toni Guasch, Dimitris Kontovrakis, G. Chryssolouris (2015)
Design Considerations for Safe Human-robot Collaborative WorkplacesProcedia CIRP, 37
-
A. Nee, S. Ong, G. Chryssolouris, D. Mourtzis (2012)
Augmented reality applications in design and manufacturingCirp Annals-manufacturing Technology, 61
-
Fuqing Zhao, Yi Hong, Dongmei Yu, Yahong Yang, Qiuyu Zhang (2010)
A hybrid particle swarm optimisation algorithm and fuzzy logic for process planning and production scheduling integration in holonic manufacturing systemsInternational Journal of Computer Integrated Manufacturing, 23
-
G. Michalos, S. Makris, N. Papakostas, D. Mourtzis, G. Chryssolouris (2010)
Automotive assembly technologies review: challenges and outlook for a flexible and adaptive approachCirp Journal of Manufacturing Science and Technology, 2
-
S. Ong, Y. Pang, A. Nee (2007)
Augmented Reality Aided Assembly Design and PlanningCirp Annals-manufacturing Technology, 56
-
G. Chryssolouris (1992)
Manufacturing Systems: Theory and Practice -
S. Giordani, Marin Lujak, F. Martinelli (2013)
A distributed multi-agent production planning and scheduling framework for mobile robotsComput. Ind. Eng., 64
-
S. Makris, P. Karagiannis, Spyridon Koukas, Aleksandros-Stereos Matthaiakis (2016)
Augmented reality system for operator support in human–robot collaborative assemblyCirp Annals-manufacturing Technology, 65
-
Panagiota Tsarouchi, S. Makris, G. Chryssolouris (2016)
Human–robot interaction review and challenges on task planning and programmingInternational Journal of Computer Integrated Manufacturing, 29
-
G. Michalos, N. Kousi, P. Karagiannis, Christos Gkournelos, Konstantinos Dimoulas, Spyridon Koukas, Konstantinos Mparis, Apostolis Papavasileiou, S. Makris (2018)
Seamless human robot collaborative assembly – An automotive case studyMechatronics
-
N. Kousi, Christos Gkournelos, Sotiris Aivaliotis, C. Giannoulis, G. Michalos, S. Makris (2019)
Digital twin for adaptation of robots’ behavior in flexible robotic assembly linesProcedia Manufacturing
-
Min Xin, Ehud Sharlin, M. Sousa (2008)
Napkin sketch: handheld mixed reality 3D sketching
- Publisher
- Springer International Publishing
- Copyright
- © Springer Nature Switzerland AG 2021
- ISBN
- 978-3-030-51590-4
- Pages
- 289 –307
- DOI
- 10.1007/978-3-030-51591-1_15
- Publisher site
- See Chapter on Publisher Site
Abstract
[This chapter focuses on human–robot interaction technologies that could seamlessly support operators on their activities in a production line. The key technology that has been mobilized is Augmented Reality (AR), due to its intuitiveness and the easiness that can overlay digital information on real assets, giving more mature support to the operators. Also, another benefit of AR technology, is that operators can receive this information using wearable devices when needed, avoiding losing time waiting or moving around the assembly station where a fixed control PC exists. Following a literature review, it is described the initialization phase of an AR application, through which the system can understand the personal characteristics of the operator (such as his/her height), to give him/her a realistic feeling when the digital components are overlaid on the real ones. Additionally, during this phase, the system receives information about the station where the operator is located, to provide the respective information. Later, support functionalities for both programming and execution phases of the production are described, as well as a brief description of the software platform to which all the tools have been integrated. Lastly, a couple of use cases stemming from the automotive industry prove the described concept.]
Published: Oct 1, 2020