產品機能的演進如同生物般，隨著時間與環境而改變，兩者的差別在於生物是受到生存環境的刺激而產生變異，產品則是因為機能上的需求而不斷地創新。然而，隨著科技進步，現代產品增加人類生活便利性與舒適性的背後，往往是對地球環境的汙染與破壞，反觀大自然的演化一直在嘗試解決各種不同的問題，讓生物能有效運用各種資源卻仍能與環境和平共存。科學家們相信產品可從自然界生物得到靈感並且是對環境友善的，然而前提是設計師能從生物中得到確實的構想，並應用至工程問題上，讓產品能夠運行。
因此，本文之研究目的為設計一套「綠色仿生創新設計方法」，藉由整合TRIZ之理想化（Ideality）與演化趨勢（Trends of Evolution）方法、系統化機能分析技術（Function Analysis System Technique）、綠色設計概念以及生物案例，幫助設計師有系統地從生物演化至今所採用較環保、較聰明之解決問題方式引導應用至產品創新上。

The evolutions of product functions are like organisms changing with time and environment. Organisms are subjected to variations caused by environmental stimuli, whereas, products are innovating constantly because of demands on the function. However, with the scientific and technological progress, modern products often make the pollution and destruction on the earth behind the convenience and comfortableness in human lives, while the evolution of nature have been trying to solve various problems so that organisms can both utilize various resources effectively and still coexist with the environment. Scientists believe that products can get inspiration idea from nature with the eco-friendly concepts. The major promise, the designer can really get ideas from biological phenomena and apply it to engineering problems or products.
Therefore, the purpose of this thesis is to design an eco-innovative method by integrating biological cases with TRIZ ideality method, trends of evolution and FAST（Function Analysis System Technique）. This method can systemically help designers solve problems or excute product innovation by mimicking nature’s wisdom in a smart way.

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