海军总医院眼科与中国科学院生物物理所感官室双眼视觉组协作,根据红绿互补原理和视差信息理论,采用随机点random-dot与电子计算机技术,研制成双眼视觉检查图,1978年5月首印,1979年3月修改重印。并荣获全军科技成果二等奖。 本图共20幅,由三种图组成:(1)红绿互补图6幅,系利用红绿互补原理设计印制。如图1,电视体操表演,电视机为红色供一眼看,人为绿色供另一眼看,戴红绿镜用双眼看,正常人便看见电视体操表演的综合图,若只看见其中之一,则表示不能同时视。(2)立体相片4幅,以立体风景相片为背景,显示带有控制点的融合相片,如图8,一青年左手握枪,右手持刀在公园练武,枪与刀为控制点,分别用红绿二 Department of Ophthalmology, Navy General Hospital and the Chinese Academy of Sciences, Department of Physiology, Department of Vision binocular vision group collaboration, according to red and green complementary principle and disparity information theory, using random point random-dot and computer technology, developed into the binocular visual inspection chart, 1978 May India, 1979 March revised reprinted. And won the army’s second prize of scientific and technological achievements. This figure consists of 20 pieces, composed of three kinds of figures: (1) red and green complementary map 6, the use of red and green complementary principle design printed. As shown in Figure 1, the TV gymnastics shows the television set in red for a glance, the artificial green for another glance, wearing a red-green mirror with both eyes, and the normal person will see a comprehensive picture of the TV gymnastics performance. If you only see one of them, That can not be viewed at the same time. (2) three-dimensional photos of four, with three-dimensional landscape photos as the background, showing a fusion point with control photos, as shown in Figure 8, a young left hand gun, right hand knife in the park martial arts, guns and knives as control points, respectively Two red and green