SU712662A1 - Method of remote automatic measuring of demensions of similar objects - Google Patents

Description

The drivers 1 and the delay line 9, which controls the trigger 11, connect the inputs to the outputs of the coincidence circuit 10 and the driver 7, and the outputs to the second input of the assembly circuit 8 and to the third input of the Soviadeia circuit 5. The second input of the trigger 6 is connected to the output of the driver 7.

The method consists in the fact that an electron beam of a transmitting television camera 1 is also scanned by an electron beam of an image of objects in the observation field.

The method is as follows.

Video pulses from the output of the transmitting tee of the main camera 1 are directed to the driver 2 of the non-intermediate front of the video pulses, the driver 7 of the rear front of the video pulses and the coincidence circuit 10. The shaper 2 in this case generates pulses corresponding to the front edges of the video pulses. The generated pulses are fed successively to the delay line 3, 4, as well as to the coincidence circuit 5. Line 3 delays with a constant delay time and line 4 delays with an adjustable delay time delay the pulses by a time slightly longer than the sweep period. The delayed pulses from the output of the delay line 4 are fed to the input of the matching circuit 5. The third input of the coincidence circuit 5 is the logical unit from the inverse output of the trigger 11 in the event that the trigger 11 is in the initial state, and the logical zero if the trigger 11 is in the cocked state. The output signal of the coincidence circuit 5 is controlled by the trigger 6, and this trigger is reset to the initial state by a pulse generated by the video pulse backfropper 7. If the delayed and the most delayed pulses corresponding to the front edges of the video pulses on the previous and current lines, coincide with the logical unit at the inverse output of the trigger 11, and this will be the first time the front edges of the video pulses coincide, then the output of the trigger 6 is Wits output pulse corresponding to the maximum duration of the video pulse. This impulse is coupled to the duration measurement circuit as well as to the assembly circuit 8. From the output of the assembly circuit 8, the output pulse is directed to a delay line 9, where a delay occurs for the horizontal scanning period. The delayed pulse arrives at the input of the circuit 10, coincidence and, with

a coincidence with a video impulse; at the output of the coincidence circuit 10, a signal is generated that drives the trigger I. In an initial state, the trigger 11 is set impulse from the driver 7 of the rear edge of the video pulses. From the direct output of trigger 11, the pulse corresponding to the video pulse of the current line enters the input of the assembly circuit 8, then to the delay line 9, and so on.

Thus, at the direct output of the trigger 11, a signal appears during each video pulse after the output pulse is selected, and at the inverse output of the trigger 11, respectively, a logical zero appears, blocking the possible coincidences of the leading edges of the video pulses in the scheme 5 matches during scanning the rest parts of the image of the object.

This method can significantly improve the measurement accuracy and increase the measurement speed.

Claims (1)

Invention Formula The method of television automatic measurement of the sizes of homogeneous objects, the shape of which is close to spherical or circular, which consists in scanning the image of objects in the observation field by line with an electron beam, in each set of video pulses formed by intersecting a beam with the image of an individual object, the maximum duration of the video pulse, which corresponds to the maximum size of the object in the scanning direction, and the duration of the selected video pulse is measured during one frame, characterized in that, in order to increase the accuracy and speed of measurement of dimensions, in each set of video pulses, one maximum video pulse is selected in terms of its duration by coinciding its average front with the leading edge of the video pulse of the previous line of this aggregate delayed by the horizontal scan period and form a signal that prohibits all possible matches of the leading edges of the video pulses when scanning the rest of the image of the object. Sources of information soldered into account during the examination 1. Ivanitsky G. R., Litinska L. L., Shikhmatova V. L. Automatic analysis of micro-objects. M.-L., “Energie, 1967, p. 124, 128, 129 (prototype).