Abstract
This is the first of a two-parts study concerning the integration of human factors into sustainable and sustainable-oriented 3D printing systems. Nowadays, it is largely accepted the idea that the so-called ‘human factor’ plays an important role in the achievement and in the development of sustainable-oriented actions, since it is able to inspire the adoption of appropriate lifestyles and new ways of consumption. In the Design domain, the use of HCD approach can boost the compatibility between human activities and 3D printing systems’ performances, as well as the development of more ‘humanized’ production services and systems. Accordingly, this first part will present the methodological setting of the research and, later, the integration strategy used to develop the human integration into sustainable 3D printing systems.
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Notes
- 1.
Eco-Design (for new products); Design for Sustainable Behaviours; Biomimicry Design; Product-Service Systems; Small-Local-Open-Connected Scenarios; System Design for Sustainability; Design for Systems Innovations and Transitions.
- 2.
1) Eco-inspired and/or biomimetic 3D printing systems; 2) Dematerialization-based and function-oriented 3D printing systems; 3) Integrated 3D printing systems for sustainable productions; 4) Sustainable industrial development through 3D printing; 5) Sustainable innovations on essential networks, 6) 3D printing systems supporting the sharing of local values in GLocal business scenarios; 7) Sustainable 3D Printing systems using local resources to support Circular Economies; 8) Sustainable systems generating open 3D printed innovations; 9) (Systems of) Learning platforms for sharing knowledge; 10) Accessible 3D printing systems; 11) 3D printing systems supporting GLocalism’s empowerment; 12) 3D printing systems for the sustainable development of rural areas; 13) 3D printing-based distributed economies and/or large-scale strategic systems supporting GLocalisms; 14) Community-oriented 3D printing systems; 15) Distributed 3D printing systems for basic necessities; 16) Inclusive 3D printing systems; 17) Networked 3D printing systems for personal and collective health; 18) Eco-intelligent 3D printing systems; 19) Humanized systems for 3D printing; 20) Transdisciplinary issues for 3D printing advances.
- 3.
See the Part II in the paper entitled: ‘The Human Integration into Sustainable 3D Printing Systems Part II: Design Experimentation’.
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Rossi, E., Di Nicolantonio, M. (2020). The Human Integration into Sustainable 3D Printing Systems Part I: Methodological Setting and Human-System Integration Strategy. In: Mrugalska, B., Trzcielinski, S., Karwowski, W., Di Nicolantonio, M., Rossi, E. (eds) Advances in Manufacturing, Production Management and Process Control. AHFE 2020. Advances in Intelligent Systems and Computing, vol 1216. Springer, Cham. https://doi.org/10.1007/978-3-030-51981-0_8
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