Integrating Biomimetics and TRIZ to Develop Low-Carbon Emission Concept of Eco-Innovative Method for Product Service System

• Main Authors: Shih-ChiehHung, 洪士捷
• Other Authors: Jahau Lewis Chen
• Format: Others
• Language: zh-TW
• Published: 2012
• Online Access: http://ndltd.ncl.edu.tw/handle/86586758849131152100

碩士 === 國立成功大學 === 機械工程學系碩博士班 === 100 === Bionics is to find creative ideas from nature. Human being imitate the creature`s function, behavior, and structure in order to improve the existing technology. This study combines the biomimetic perspective and TRIZ to propose a low-carbon emission concept eco-innovative design method for PSS (product service system). This method comprises system optimization strategy, system layer analysis map, case-based corresponding method, qualitative low-carbon radar chart assessment. In addition, biological functional analogy suggestion guides designer how to apply bio-cases into PSS. This proposed method helps designer systematically find the creative solution from nature and inspire a more eco-innovative PSS. Key words establish the connection between TRIZ innovative principles and bio-cases in the relationship of PSS and low-carbon strategy. This thesis provides the corresponding bio-cases of TRIZ innovative principles and key words, and sorts them by service and low-carbon strategy through case analysis. System optimization strategy is proposed to make the system more low-carbon effect and provide the conceptual suggestion of service design and product of service design. System layer analysis map and case-based corresponding method are rearranged and modified to become more proper for the PSS detail design. Furthermore, this thesis proposes the qualitative radar chart for evaluating the low-carbon effect between the PSSs which are improved before and after. Finally, the three design cases demonstrate the capabilities of the proposed method and process.