| 摘要 |
The position of objects in space can be determined by indicating three real numerical values of a predetermined co-ordinate system, e.g. a Cartesian or spherical co-ordinate system. This type of object-detection system requires a comparatively complex computing equipment for subsequent evaluation of the image data. In the novel object-detection system, four morphic axes (N, O, S, W) form a morphic observation surface from which two magnetic axes (M+, M-) project in a perpendicular manner. The observation surface is divided into integer squares and the space to be observed is divided into integer cubes, these squares and cubes being respectively the smallest unit. A measuring beam (m) can be emitted, parallel to the magnetic axis, from each integer square of the observation surface. Means are provided for determining from the impingement of the measuring beam on an object (P) the integer cube in which this object is located. This system permits more rapid and less computer-intensive object-recognition and image-processing. The invention further concerns the use of this system for the recognition of objects in space. |
