SU904538A3 - Device for generating tomogram image - Google Patents

Description

the digital converter and the intermediate memory unit are connected to the input of the multiplication unit, the second input of which is connected to the output of the memory unit and the storage of constant coefficients, and the output of the multiplication unit is connected to the input of the matrix memory.

The drawing shows a structural electrical circuit of the device for obtaining images of tomograms.

The device contains a scanning unit 1, an X-or T-ray source 2, a radiation detector 3, an integrating unit k, a control unit 5, an analog-to-digital converter 6, an intermediate memory block 7, a multiplication unit 8, a block 9.parameters and a storage of constant coefficients , a matrix memory unit 10, a video monitoring unit 11. The scanning object 12 is placed in the scanning unit, placed in such a way that the beam of the Xi source of the J rays passes through it and enters the radiation detector.

The device works as follows.

Scanning unit 1 allows the system (source 2 and detector 3) to be rotated around the object under investigation in such a way that the X- or if rays from the source 2 pass $ {t through the object 12 under study at different angles. In addition, the source 2 and the detector 3 can be moved progressively, illuminating the object under study 12 by parallel X- or JT-rays. In both cases, the relative position of the source 2 and the detector 3 remains unchanged and the narrow X-ray of the G-radiation from the source 2 always hits the detector 3, which emits an electrical signal whose value depends on the amount of attenuation of the X- or f-ray passing through the object under study. In the integrating unit signals in

are aggregated for the period determined by control block 5. The resulting analog signals are digitized in the analog-to-digital converter 6 and stored in the cells of the intermediate memory block 7. Further, the signals from certain groups of rays passing through the object 12 under study are selected from

block 7 and multiplied in block 8 by constant coefficients, which are preliminarily calculated and stored in block 9. After processing, the signals are received and accumulated in block 10 by the matrix memory, each cell of which corresponds to 5 a specific point of the study point of the object being edited. A complete picture of the cross section of the object under study (tomogram) is displayed on the screen of a video monitor.

0 Thus, the introduction of an integrating unit, an analog-digital converter, a multiplication unit, intermediate memory blocks, a memory block and storage of constant coefficients into the device allows one to improve the accuracy and destructiveness of the obtained tomograms, and, in addition, to simplify the process and reduce signal processing time.

Claims (1)

Invention Formula A tomogram image acquisition device comprising a scanning unit including a source of X- or 1G-rays and a radiation detector located on the same axis, between the source of X- or G-rays and 0 a radiation detector is placed an object under investigation, a control unit, a matrix memory unit, the output of which is connected to the input of a video monitoring unit, characterized by J by the fact that, in order to increase the accuracy and resolution of the tomogram, an integrating unit, an analog-to-digital converter, an intermediate memory unit, a multiplication unit, a constant coefficient storage unit and a storage unit have been inserted, the output of the scanning unit's radiation detector is connected to the input of the integrator, the second input of which connected to the output of the control unit and the output of the integrating unit through serially connected analog-to-digital converter and intermediate memory unit connected to the input (, house of the multiplication unit, the second input of which is connected to the output of the memory unit and the storage of constant coefficients, and with matrix memory input. Sources of information. Taken into account in the examination 1. UK Patent No. 128395, class, H 5 R, 1972 (prototype) of