RU2004128917A - METHOD FOR REMOTE DETECTION OF WEAPONS AND EXPLOSIVES HIDDEN UNDER CLOTHING OF PEOPLE AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (6)

1. The imaging system in the millimeter and submillimeter wavelength range, containing at least one spatially distributed radiation source in the millimeter or submillimeter wavelength range, consisting of spatially distributed point-like simultaneously emitting radiation sources, made with the phase field illumination function -independent components of radiation, each of which is emitted by a corresponding point source, characterized by different angles of incidence these components of radiation in the field of view and the difference in carrier frequencies which does not exceed the amount required to ensure their specified phase independence, an element for focusing the radiation scattered in the field of view onto a receiver configured to independently receive radiation scattered by various spatial parts of the field of view converting it into a set of corresponding signals, with each signal of the specified set corresponds to radiation scattered by a spatially defined part observation zones, the outputs of the specified receiving device are associated with a device for converting the specified set of signals into the corresponding image of the monitoring zone and displaying this image on the display, with each image element being formed from the corresponding signal of the specified set, characterized in that said point radiation sources are made with a distinctive function encoding the radiation components emitted by them, by, for example, their amplitude modulation with different modulation frequencies, etc. The receiver device is capable of independently receiving each coded component of the radiation received from the indicated observation zone and converting each signal from the specified set of signals into an additional set of partial signals, moreover, various partial signals for any but the same of the indicated additional sets of partial signals correspond to distinctively coded radiation components or equally coded radiation components, but with distinctive decree values distinctive physical parameters of radiation of the corresponding radiation element, the device is configured to independently receive individual partial electrical signals from the formation of said partial signals of partial images of the observation zone, for each of which a separate element of such an image corresponds to radiation scattered by a spatially defined part of the observation zone, and which is formed from a separate partial signal with the same coding and with the same and / or bl viscous values of the physical parameters of said radiation emission independent elements, and forming zone results-based observation image by combining said partial images and / or fragments thereof. 2. The system according to claim 1, characterized in that the source is additionally equipped with polarizing means, emitting from its radiation mainly linearly polarized in the first spatial direction, and the receiving device is equipped with polarizing means for extracting the radiation received by it, linearly polarized in the second spatial direction . 3. The system according to claim 2, characterized in that the first indicated direction coincides with the second indicated direction. 4. The system according to claim 2, characterized in that the first indicated direction is orthogonal to the second indicated direction. 5. The system according to claim 1, characterized in that each independent point-like source is equipped with an adjustable attenuator to provide an acceptable reduction in the average power level of the corresponding component. 6. The method of forming images in the millimeter and submillimeter wavelength range, which consists in generating radiation in the millimeter or submillimeter wavelength range, consisting of separate partial radiation components that differ from each other in angle of incidence into the observation zone, direction of the formed partial radiation components in the observation zone, reception through the focusing element of the radiation scattered in the observation zone, the conversion of the received radiation into signals, each signal radiation scattered by a certain spatial part of the observation zone and the formation of a visually perceptible image of the observation zone from these signals, characterized in that each individual partial radiation component is additionally encoded differently from the encoding of other partial radiation components, after scattering of said radiation in the observation zone, this scattered radiation to a receiving device that receives this radiation independently from each part of the observation zone, by converting the specified radiation into a corresponding set of signals, each of which corresponds to radiation scattered in a certain spatial part of the specified observation zone, and forms an additional set of partial signals from each signal of the specified set of signals, and the encoded radiation components correspond to the specified partial signals form partial images, for each of which a separate image element corresponds to radiation, p seeded with a spatially determined part of the observation zone, and which is formed from a separate partial signal of the corresponding additional set of partial signals, and then combine partial images and / or their fragments to form the resulting image of the object and its visual display.