Combined Design of a Compact Production System and Services for Sustainability

Nozomu Mishima

doi:10.4028/www.scientific.net/KEM.572.70

Paper Titles

Comparative Analysis of LED Commercial Lighting Systems
p.54

Enabling (Bio) Materials: Feasibility Study for its Implementation in Development of Sustainable Lighting Product
p.58

Assessment of Low Cost, Sustainable, Reflective Layers for Optical Mixing
p.62

Biomimicry: Natural Systems In Situ Analysis, Aimed to Rain Water Harvesting
p.66

Combined Design of a Compact Production System and Services for Sustainability
p.70

Product Innovations and Eco-Sustainability: An Approach to Evaluate the Relationships
p.74

Forming the Nucleus of a Novel Ecological Accounting System: The myEcoCost Approach
p.78

Total Quality Environmental Management Toward Sustainability: Need and Implementation in Libyan Food Industry
p.84

Development of an Online System for Recycling Consumer Electronic Products Using the Internet, NFC and RFID Technologies
p.90

HomeKey Engineering MaterialsKey Engineering Materials Vol. 572Combined Design of a Compact Production System and...

Combined Design of a Compact Production System and Services for Sustainability

Abstract:

The authors former research group developed a desktop-size and distributed production system named Micorfactory. Microfactory consisted of 5 compact machines and was capable to fabricate small parts with sufficient accuracies. Since its introduction 13 years ago, various machines to fulfill the different tasks covered by the Microfactory have been developed. However, promotion of systematic innovation of the services utilizing micorfactory concept has been insufficient. The paper first identifies potential services that can be combined with the Micorfactory, considering potential advantages of the microfactory-like compact production system. Although these business models with conventional manufacturing systems are not unique, the service can be distinguished in case of microfactories regarding its on-demand and on-site characteristics. It also enhances the sustainability of the manufacturing industries. To clarify the advantage of these combinations of compact systems with services, the paper shows an example. Finally, the paper concludes that services combined with micorfactories are the promising areas to enhance sustainability of production.

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Periodical:

Key Engineering Materials (Volume 572)

Pages:

70-73

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.572.70

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Online since:

September 2013

Authors:

Nozomu Mishima

Keywords:

IPS², Life Cycle, Microfactory, Product Service Systems, Sustainability

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