SU669182A2 - Image-centering apparatus - Google Patents

Claims (1)

The invention relates to holography and can be used, for example, to center the image in image classification systems used in computer science and medicine. There is a known method of centering the image, which consists in calculating the coordinates of the object and then shifting the image by a computational distance. Basically auth. St. No. 623104 describes an image centering device comprising a Fourier hologram recording circuit consisting of reference and subject channels, a lens and environmental loggers. There is a recovery channel in the scheme, which contains a spatial filtering scheme and a diffraction grating. A transparency located in the front focal plane of the lens outside the main optical axis forms a frame with the original image and records the hologram of this frame at the normal focal plane. 1dienii reference beam, and then cut off the highest spatial frequency of the image, projecting eto in the front focal plane of the lens symmetrically with the original relative to the main. d axis, br dissolved its spectrum is reduced by this beam and the hologram. However, there will be significant distortions in the reconstructed image. The aim of the invention is to improve image quality by reducing distortion in the reconstructed image. The goal is achieved by introducing an optically controlled transparency with a threshold characteristic and a correction filter into the device, the transparency being located between the spatial filtering circuit and the diffraction grating, and the correction filter is located behind the center of the hands of the environment. The drawing is a functional diagram of the described device. The device contains: coherent radiation source 1, collimator 2, coherent radiation source 3, collimator 4, transparency 5 with the input image, optically controlled transparency of the properties of the lens, lens 7, lenses 8-11, low-pass filter 12, semi-transparent mirror 13 , mirrors 14, 15, translucent mirrors 16, 17, diffraction grating 18, mirrors 19, 20, 21, recording medium 22, correction filter 23, lens 24, output plane 25. The collimated beam of coherent radiation source 1 illuminates the transparency 5 with the input image (in the drawing, the image is located at the top of the banner). The image using lenses 8 and 9 is projected into the front focal plane of the lens 7. In the rear focal plane of the lens onto the recording medium, a Fourier hologram of the image is recorded with a normal incidence of the reference beam directed to the recording medium using mirrors 16, 19, 2 21 The input image using a translucent mirror 13, mirrors 14 and 15, lenses 10 and 11 is projected onto an optically controlled transparency with threshold properties. This low-pass filter 12 Cuts off. A blurred image is projected on the outer spatial frequencies of the image and on the optically controlled transparency, and it is located symmetrically-initial with respect to the main optical axis of the lens 7. In that region of the optically controlled transparency where the illumination exceeds a certain threshold value, the optical properties of the transparency switch. The transformed image, read by the source of 3 coherent O radiation, is a sharp-edged spot with a circle shape, the center of gravity of this spot being located symmetrically to the center of gravity of the input image relative to the main optical axis. 6 24 The spectrum of the quantized image is then expanded using a diffraction grating located in the front focal plane of the lens. The light beam transmitted through the grating is used to reconstruct the hologram. The image reconstructed from the hologram will be a convolution of the original image with the image of a diffraction grating, and in the spectral region the wave front is the product of the spectrum of the original image and the spectrum of the diffraction grating T (x, y) .. Since the grating parameters are known, then into the spectral plane of the filter with transmission T (X, y) / | T (x, y) f, it is possible to compensate for image distortions caused by spatial modulation of the regenerating beam. The angle of incidence of the regenerating beam is equal to the angle of incidence of the object beam during recording, therefore, the reconstructed wavefront will propagate along the main optical axis of the lens. Image Formula Device for centering images by author. St. No. 623104, characterized in that, in order to improve image quality, an optically controlled transparency with a threshold characteristic and a correction filter is inserted into the device, the transparency being located between the spatial filtering circuit and the diffraction grating, and the correction filter behind the recording medium. Sources of information taken into account during the examination 1. USSR Author's Certificate No. 623104, cl. G 01 B 11/00, 1976.