SU554535A1 - Device for rasterless stereoscopic display - Google Patents

Description

one

The invention relates to automation and computing, in particular to devices for displaying information. Devices for non-rampless stereoscopic indication are known, comprising a stereoscopic indicator connected to a calculator, polaroid plates with an ultrasonic emitter connected to a trigger unit, microphones by the number of coordinates, blocks for measuring phases and coordinates, counters, registers and logical elements I. However, the known devices cannot provide high accuracy of image correction, since the position of the stereo image components is determined only for a certain field of the operator's head.

The purpose of the invention is to improve the accuracy of image correction. In the described device, this is achieved by connecting the receiver output for each of the coordinates to the corresponding trigger, the other input of which is connected to the pulse generator and the synchronization unit, and the output through the AND gate, the second input of which is connected to the synchronization unit, the counter connected to the calculator and the synchronization unit.

The drawing shows a diagram of the described device.

It consists of a stereoscopic indicator 1, half-glasses 2 with an ultrasonic emitter 3, microphones 4, 5, 6, calculator 7, receivers 8, 9, 10, triggers 11, 12, 13, logic elements “And 14, 15, 16, counters 17, 18, 19, generator pulse-. owls 20 and block synchronization 21.

The synchronization unit 21 generates a start pulse, which zeroes the counters 17, 18, 19, sets the triggers AND, 12, 13 to the “1” position and starts the generator 20, generating a radio pulse. This radio pulse is fed through a flexible wire to the ultrasonic emitter 3 located on the frame of the glasses 2, and is radiated into the space in the form of an ultrasonic pulse. The ultrasonic pulse is perceived by microphones 4, 5, 6, located in front of, above, and

Claims (1)

on the side of the operator’s head (e.g., on the console, on the ceiling of the room where the stereo indicator is located, and on one of the side walls). At the same time, the time delays of the pulses perceived by the microphones are proportional to the distance from the radiator (and the head of the operator) to these microphones. From microphones, radio pulses are received at receivers 8, 9, 10, where, after detection, they turn into video pulses. These video pulses go to the second 3 inputs of the And trigger, 12, 13, and translate them into position “C. Thus, at the output of the flip-flops, gates are formed, the duration of which is proportional to the distance from the operator's head to the corresponding microphones, in other words, proportional to the coordinates of the operator's head. These gates are fed to one of the inputs of the logical elements “And 14, 15, 16. I’m the second inputs of these elements from the synchronization unit 21 receives the pulses of the reference frequency. The output of the gates "And" produces bursts of pulses of the reference frequency, and the duration of these 15 packs is equal to the duration of the gates. Since the frequency of the pulses is constant, the number of pulses in the packs is proportional to the coordinates of the head of the operator. The number of pulses is counted by counters 17, 18.20 19, before that zeroed start pulses. From the outputs of the counters, a parallel code proportional to the coordinates of the head of the onerator enters the calculator. In cases where it is impossible to place the microphones 25 at a considerable distance from the operator, the accuracy of determining the coordinates of his head may be insufficient. This is due in this case to the fact that it is not the coordinates that are actually measured, but the distance from the operator’s head to the fixed microphones. At short distances from 4 operator heads to microphones, the differences between these distances and coordinates can be significant. To prevent this phenomenon, single microphones can be replaced by groups of microphones located in planes parallel to the coordinate microphones, and the outputs of these microphones can be combined on mixers. The invention includes a device for a rashless stereoscopic display comprising a stereoscopic indicator connected to a calculator connected to a synchronization unit, polaroid glasses with an ultrasonic emitter connected to a pulse generator, microphones according to the number of coordinates, each of which is connected to a corresponding receiver, counters, triggers, Logic elements "And, characterized in that, in order to increase the accuracy of image correction, in it the receiver output for each of the coordinates is connected with the corresponding acting triggers, the other input of which is connected to the pulse generator and the synchronization unit and the output from the AND gate "AND, the second input of which is connected to the synchronization unit, coupled with a counter, connected to the calculator and the synchronization unit.