嵌入式安全辨識產品在市場上越來越普遍,因此一套有效地嵌入於產品上運作的安全控管機制,是很迫切需要的。本論文主要目的為利用指紋辨識模組嵌入於傳統大門電鎖中,使大門電鎖也具備指紋辨識的功能,完成雙模辨識的機制,達到安全等級提昇的效果。 就技術層面來說指紋辨識是最為成熟的一種生物辨識技術,如果要將指紋辨識模組嵌入在大門電鎖中,就需特別考量到價格、功能、體積、安全性及方便性等問題。經由本研究結果顯示,所完成的電鎖結構控制設計及單晶片控制組件的研發,能連結指紋辨識模組與控制電鎖作動方式,完成指紋機電鎖之應用。並利用灰色理論針對需求評估準則,以多準則決策最佳化評選結果,其中指紋辨識模組,在現階段中,乃是最適合嵌入於機電鎖中,完成指紋辨識生機電鎖的設計,來實現門禁安全系統。 The objective of this thesis is to develop a fingerprint identification module embedded on a traditional electro-mechanical lock. It becomes a new security product(bio-lock) with dual functions. The embedded security products are more and more popular now a day. So, it becomes more important to develop an embedded product for the secure purposes. From the practical point of view, the fingerprint is one of the mature techniques in security industry. It needs to consider the cost, functions, product volume size, security label and operator convenience for making an embedded security lock. In the research, a 8051 chip is used to control the waiting time of the embedded fingerprint lock. Finally, the grey theory is applied to evaluate the optical design of embedded bio-lock by the multi-criterion decision-making. The results show the fingerprint identification module is most suitable for embedded bio-lock for the ordinary applications.
