CN201069408Y - Evaluation and testing instrument for nude eye 3D display - Google Patents

Abstract

A naked-eye three-dimensional display evaluation and testing instrument is characterized in that a microcomputer is connected to an image acquisition card, an X-axis guide rail and a Y-axis guide rail, the image acquisition card is connected to a sensor, and the sensor is connected to the X-axis guide rail, the Y-axis guide rail, a polar coordinate guide rod and Sub-screen test image, the sub-screen test image is connected to a naked-eye stereoscopic display. The utility model has the advantages of: (1) the measurement operating system is convenient, and the coordinate mechanism is used to position the sensor before displaying, so the stereoscopic degree of any viewing interval can be measured; (2) the sensor can be positioned at any position in the three-dimensional space suitable for viewing.

Description

Glasses-free stereoscopic display evaluation and testing equipment

technical field

The utility model relates to a naked-eye three-dimensional display evaluation and testing instrument.

Background technique

Glasses-free stereoscopic display is a new type of stereoscopic display, and there is no corresponding industry or national standard for the evaluation of its technical quality. The technical quality evaluation of the naked-eye stereoscopic display can use typical parameters and corresponding test methods to establish standards, so that the display effect of the naked-eye stereoscopic display can be objectively evaluated.

The naked-eye stereoscopic display uses a flat-panel display device as an image display unit. Therefore, the image display quality index of the sub-screen can refer to the measurement and evaluation methods of the same type of flat-panel display. The naked-eye stereoscopic display has its own particularity. It needs to display one or more pairs of stereoscopic images in the display area at the same time. These images change the direction of light propagation through the action of optical elements and form a unique independent viewing district. From the principle of stereoscopic display technology, it can be known that the strength of the stereoscopic effect depends on the correct reception of the image by the stereo, that is, the independent viewing area has its own attributes and exclusiveness, and only the images on the corresponding sub-screen are allowed to be seen in this independent viewing area. Images on other sub-screens cannot be seen, but due to the principle and physical properties of display devices, it is difficult to realize ideal optical transmission in reality, and independent viewing areas in a pure sense can only be an ideal.

Contents of the invention

The purpose of the utility model is to provide a naked-eye three-dimensional display evaluation and testing instrument, which is used for quality testing and standard evaluation of the naked-eye three-dimensional display.

The utility model is realized in this way, it comprises sensor, microcomputer, X axis guide rail and Y axis guide rail, it is characterized in that, microcomputer connects image acquisition card, image acquisition card connects sensor, sensor connects X axis guide rail, Y axis guide rail , a polar coordinate guide rod and a sub-screen test image display, and the sub-screen test image is connected to a naked-eye stereoscopic display.

The utility model has the advantages of: (1) the measurement operating system is convenient, and the coordinate mechanism positioning sensor can be used in front of the display to measure the stereoscopicity of any viewing interval; (2) the sensor can be positioned at any position in the three-dimensional space suitable for viewing.

Description of drawings

Fig. 1 is a schematic block diagram of the utility model;

Fig. 2 is a schematic diagram of the working structure of the utility model.

In the figure, 1. Stereoscopic evaluation results 2. Microcomputer 3. Image acquisition card 4 sensors 5. Sub-screen test image 6. Naked-eye stereoscopic display 7. Y-axis guide rail 8. Polar coordinate guide rod 9. X-axis guide rail

Detailed ways

As shown in Figure 1, the utility model comprises sensor 4, microcomputer 2, X-axis guide rail 9 and Y-axis guide rail 7, is characterized in that, microcomputer 2 connects image acquisition card 3, and image acquisition card 3 connects sensor 4, and sensor 4 Connect the X-axis guide rail 9, the Y-axis guide rail 7, the polar coordinate guide rod 8 and the sub-screen test image 5, and the sub-screen test image is connected to the naked-eye stereoscopic display 6. The microcomputer displays the stereoscopic evaluation result 1 .

As shown in Figure 2, this measurement method is easy to operate, uses the polar coordinate guide rod 8 to locate in front of the naked-eye stereoscopic display 6, the polar coordinate guide rod forms a three-dimensional with the X-axis guide rail 9 and the Y-axis guide rail 7, and the sensor 4 can measure any viewing angle. Stereoscopic conditions in the interval.

Claims (1)

1. A naked eye stereoscopic display evaluation and testing instrument, it comprises sensor, microcomputer, X axis guide rail and Y axis guide rail, it is characterized in that, microcomputer connects image acquisition card, image acquisition card connects sensor, sensor connects X axis guide rail, Y-axis guide rail, polar coordinate guide rod and sub-screen test image, which is connected to a naked-eye stereoscopic display.

Images