目前在檢測癌症細胞上,有很多都是以腫瘤出現病變的區域作診斷,若能在腫瘤尚未發生病變前,提前診斷出來的話,如此便能提高治癒率。本研究開發一套高光譜顯微影像系統的人機介面,可針對可疑部位的細胞做光譜掃瞄,掃瞄出此區域細胞各頻譜的影像資料,這些資料將來可以與資料庫做連結,分析出此可疑細胞是否會轉換為癌症細胞。如此便可以達到提早診斷與治療。 本研究主要開發一套可以量測細胞的光譜影像的人機介面程式 ,此人機介面程式的功能包含控制馬達移動方向、控制高光譜儀曝光時間、影像的對焦功能、可選取不同波長的即時影像、量測螢光影像、紀錄310~1096 nm的光譜強度及位置資訊。 Presently the cancer was examined by diagnosing the pathological changes of tumor. If the examination of cancer can diagnose the tumor before the cell occur the pathological changes, the cure rate of cancer will increase. This research develops a human-machine interface for hyper-spectral microscope. The hyper-spectral microscope can scan the specific area of cell and records the data of spectrum and intensity. These data is helpful to diagnose tumor. This research aims to develop a human-machine interface to control the hyper-spectral microscope. This interface can control the moving speed of motor, the exposure-time of hyper-spectrum, real-time focus, image of fluorescence, and the data of spectral intensity and position.