Presenting dynamic scenes without incurring motion artifacts visible to observers requires sustained effort from the display industry. A tool that predicts motion artifacts and simulates artifact elimination through optimizing the display configuration is highly desired to guide the design and manufacture of modern displays. Despite the popular demands, there is no such tool available in the market. In this study, we deliver an interactive toolkit, Binocular Perceived Motion Artifact Predictor (BiPMAP), as an executable file with GPU acceleration. BiPMAP accounts for an extensive collection of user-defined parameters and directly visualizes a variety of motion artifacts by presenting the perceived continuous and sampled moving stimuli side-by-side. For accurate artifact predictions, BiPMAP utilizes a novel model of the human contrast sensitivity function to effectively imitate the frequency modulation of the human visual system. In addition, BiPMAP is capable of deriving various in-plane motion artifacts for 2D displays and depth distortion in 3D stereoscopic displays.
翻译:显示行业需要持续的努力。 一种通过优化显示配置来预测运动艺术品和模拟消除艺术品的工具非常希望用来指导现代显示的设计和制造。 尽管市场中没有这种工具,但市场中没有这种工具。 在这项研究中,我们提供了一种交互式工具包,即Binoocelle Perceived Motion Atificact Pillionor(BiPMAP),作为GPU加速执行的可执行文件。BiPMAP 记录了广泛收集的用户定义参数,并通过展示可察觉到的连续移动和抽样移动的立体手工艺品,直接直视各种运动工艺品。对于准确的文物预测,BiPMAP使用人类对比灵敏度功能的新模型,以有效模仿人类视觉系统的频率调制。此外,BiPMAP能够为2D显示和3D立体立体显示的深度扭曲生成各种机内运动工艺品。