本研究透過「張氏標定法」存取參數,藉此建構具有方向性之3D立體展示模型。利用Python-OpenCV創建使用者介面,其目的是為了控制模型的移動,以便使用者利於觀測。最後搭配現有的光路系統將模型投影至人眼前方4公尺處,以達成立體展示效果。投影系統設計規格如表3。 本文詳細說明立體模型建構的過程、運算及模型移動方式,解決了VR(Virtual Reality,虛擬實境)需穿戴而造成不適感的問題,其解決方法為透過黑白方格作為基底創建了虛擬展示模型,並將模型過光路統呈現至人眼4公尺處,並藉由偵測手部來控制模型的移動。透過光路系統投影,使呈現的立體模型具有立體感,使觀測者有更好的AR體驗。 ;This study aims to construct a 3D display model with orientation using Zhang′s calibration method to access the parameter. A user interface is created using Python-OpenCV for the purpose of controlling the movement of the model for user-friendly viewing. Finally, the model is projected 4 meters in front of the human eye with the existing optical system to achieve the stereoscopic display effect. The design specifications of the projection system are shown in Table 3. The solution is to create a virtual display model by using a black and white square as the base, present the model to 4 meters in front of the human eye through the optical system, and control the movement of the model by detecting the hand. By projecting the model through the optical system, the three-dimensional model is presented with a sense of three-dimensionality, allowing the viewer to have a better AR experience.
