本研究利用ZEMAX軟體來設計AR所需之光學系統(HUD模型),再透過MATLAB臉部識別與追蹤技術進行視覺補償,並在文中詳細列出ZEMAX軟體的模擬步驟,有利於初學者進行學習。 透過ZEMAX我們可以模擬出視覺上位置所造成的誤差(約15~18%),而MATLAB軟體的即時追蹤使影像隨觀測者視角進行移動,再進行程式參數調整來進一步縮小誤差,使觀測者有更好的AR體驗。 ;This research uses ZEMAX software to design the optical system (HUD model) required for AR, and then uses MATLAB face recognition and tracking technology to perform parallax compensation, and detailed ZEMAX software simulation steps and simple ZEMAX example operations are listed in the article. For beginners to learn. Through ZEMAX we can simulate the error caused by the visual position(about 15~18%), and the real-time tracking of MATLAB software makes the image move with the observer′s perspective, and then adjust the program parameters to further reduce the error, so that the observer has a better AR experience. With the help of TracePro, you can clearly see the light trace and irradiance map, while ZEMAX can see the spot size and imaging distortion and use the software′s internal optimizer to optimize the image.
