数字掩模技术的核心器件是数字微镜芯片,它具有较高的分辨率和灰度等级等优点。
DMD chip is the core device of digital mask technology, and it has such advantages as high resolve, gray level, and so on.
为研究数字微镜器件在视频全息中的应用,探讨了基于数字微镜器件的全息编码方法。
To develop computer generated holographic video(CGHV) technology utilizing the digital micromirror device(DMD), the holographic coding methods have been investigated.
提出用优化成像系统设计参量的方法有效消除基于数字微镜阵列的栅格结构及其衍射对微结构成像质量的影响。
The pixel structure is removed by optimizing the parameters of imaging system rather than other techniques that make the setup of digital photolithography complexity.
实际上,数字微镜器件作为一种新型的空间光调制器,在光学信息处理和结构照明型三维传感中也具有广泛的应用前景。
In fact, DMD used as a new type of spatial-light modulator have a wide prospect in optical information processing and structured illumination three-dimensional sensing.
实际上,数字微镜器件作为一种新型的空间光调制器,在光学信息处理和结构照明型三维传感中也具有广泛的应用前景。
In fact, DMD used as a new type of spatial-light modulator have a wide prospect in optical information processing and structured illumination three-dimensional sensing.
应用推荐