JP2546010B2 - Radar video compressor - Google Patents

Description

Description: TECHNICAL FIELD The present invention relates to a radar video compression apparatus required for logarithmic display in a precision approaching radar system or the like.

[Prior Art] Conventionally, in the case of performing logarithmic display in which a distance is enlarged at a short distance and a distance is reduced at a long distance by using a display device that displays a radar video like a precision approaching radar system,
The radar video signal is quantized in a fixed unit so that a so-called logarithmic sweep is performed when the display device sweeps.

[Problems to be Solved by the Invention] In the conventional radar video display device described above, when logarithmic sweep is performed, the display density on the screen increases as the distance increases. In the device that performs the signal processing of the radar by the digital signal, the quantization is performed in the time direction, but if the density is expressed by this time quantization unit, when the sweep of the display device becomes a long distance part, The time quantization unit of the radar video becomes several tenths of the sweep spot size of the display device, and several dozen time quantization units are displayed while the sweep spot advances by one diameter. .

On the other hand, in the laser pointing device, the contents of each time quantization unit in the spot cannot be distinguished because the display device having afterglow is generally used. Nevertheless, in the past, since the video signal was transmitted in a fixed time quantization unit that satisfies the required resolution at a short distance of the radar, the transmission capacity or transmission band to be transmitted becomes large and the transmission efficiency is poor. There is a problem.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a radar video compression device capable of improving the transmission efficiency.

[Means for Solving the Problems] A radar video compression apparatus according to the first invention of the present application includes means for generating an equal-interval-period sampling signal and a non-equidistant-sampling signal whose period gradually increases based on a radar trigger signal. Means for sampling the radar video signal by the equally-spaced sampling signal and digitizing it to output a digital radar video signal, and means for detecting the maximum value of the digital radar video signal included in the period of the non-equally-spaced sampling signal And a means for storing the maximum value of the digital radar video signal detected by this means, and a means for reading the maximum value of the digital radar video signal stored in this means at a constant interval. To do.

The radar video compression apparatus according to the second invention of the present application is a means for generating non-equidistant sampling signals whose cycle gradually increases based on a radar trigger signal, and each cycle of the non-equidistant sampling signals of the radar video signal. Means for sampling and digitizing the maximum value in the inside to output the maximum value radar video signal, means for storing the maximum value radar video signal output from this means, and the maximum value radar stored in this means Means for reading out the video signal at regular intervals.

[Operation] According to the first invention of the present application, the maximum value of the digital radar video signal sampled by the equidistant sampling signal and digitized is detected within the period of the non-equidistant sampling signal. Then, only the maximum value is stored, and the stored maximum value is read out at regular intervals. Here, since the non-equidistant sampling signal is a signal whose cycle gradually increases as the distance increases, one maximum value is detected from more digital radar video signals in the long distance portion. Therefore, the amount of data thinned out in the long-distance portion is increased as compared with the short-distance portion, and the amount of information to be transmitted can be significantly reduced. Therefore, it is possible to reduce the transmission capacity or the transmission band while sufficiently securing the necessary resolution in the short distance portion, and it is possible to significantly improve the transmission efficiency.

Also in the second invention of the present application, the maximum value of the radar trigger signal in each period of the non-equidistant sampling signal is sampled and digitized. Compared with this, the amount of data compression in the long-distance portion is increased, and the amount of information to be transmitted can be reduced.

Embodiments Embodiments of the present invention will be described below with reference to the accompanying drawings.

FIG. 1 is a block diagram of a radar video compression apparatus according to an embodiment of the present invention, and FIG. 2 is a waveform diagram for explaining its operation.

In FIG. 1, the timing generating means 4 generates an equal-interval periodic sampling signal 6, an unequal-interval periodic sampling signal 8, a storage signal 10, and a read signal 11 with the radar trigger signal 13 as a reference. As shown in FIG. 2, the equally-spaced cycle sampling signal 6 is a sampling signal of a cycle that can sufficiently secure the necessary resolution in the short distance portion. The non-equidistant cycle sampling signal 8 and the storage signal 10 are signals having a cycle that is an integer multiple of the cycle of the equidistant cycle sampling signal 6, and immediately after the radar trigger signal 13 is output, the cycle is the same as the equidistant cycle sampling signal 6. , A signal whose period gradually increases as the distance increases. Further, the read signal 11 is a signal having an equal interval period obtained by dividing one radar sweep time by the display number in one radar sweep.

The radar video signal 5 is input to the digitizing means 1. The digitized signal 1 samples the radar video signal 5 and digitizes it in accordance with the equally-spaced periodic sampling signal 6 output from the timing generation means 4. The digitized radar video signal 7 output from the digitizing means 1 is input to the maximum value detecting means 2. The maximum value detecting means 2 detects the maximum value in one cycle of the non-equidistant cycle sampling signal 8 output from the timing generating means 4. The maximum value laser video signal 9 detected by the maximum value detecting means 2 is sequentially stored in the storage means 3 in accordance with the storage signal 10 having a non-equidistant period. The maximum-value radar video signal 9 stored in the storage means 3 is sequentially read according to the read signal 11 having a constant cycle, and is output as the read radar video signal 12.

Next, the operation of the radar video compression apparatus according to the present embodiment configured as described above will be described.

The radar video signal 5 shown in FIG. 2 is converted by the digitizing means 1 into a digitized radar video signal 7 at regular intervals according to the regular interval sampling signal 6. The converted digitized radar video signal 7 is converted by the maximum value detecting means 2 into the maximum value radar video signal 9 detected as the maximum value within the period of the non-equidistant period sampling signal 8. Here, the non-equidistant periodic sampling signal 8 has the same period as that of the equidistant periodic sampling signal 6 at a short distance, and has a larger period at a long distance. More information will be decimated in the distance portion than in the short distance portion. Then, the maximum radar video signal 9 is stored in the storage means, and the read signal 11
However, since the radar video signal 7 is decimated more as the distance increases, the same display as the conventional logarithmic sweep is displayed on the display screen. Become.

FIG. 3 shows the total number of samplings with respect to the distance (nautical mile) between the equidistant periodic sampling and the non-equidistant periodic sampling. As is clear from this figure, there is no difference in the total number of both at short distances, but at long distances the total number of non-equidistant periodic samplings is smaller than the total number of equidistant periodic samplings. Can be reduced to 1/4. Therefore, according to the present device, the transmission capacity or the transmission band can be reduced to 1/4, and the transmission efficiency can be significantly improved.

In the above embodiment, after the radar video signal was digitized at regular intervals, the maximum value in the periods was sampled at irregular intervals, but the analog peak value in the irregular intervals was measured at irregular intervals. Even if it is digitized and stored in the storage means, the same effect can be obtained.

As described above, according to the present invention, the maximum value in the non-equidistant period of the radar video signal is sampled in each of the non-equidistant periods and is output at equal intervals.
The amount of signal compression at a long distance can be increased, and the transmission capacity or transmission band can be reduced. Therefore, it is possible to significantly improve the transmission efficiency.

[Brief description of drawings]

FIG. 1 is a block diagram of a radar video compression apparatus according to an embodiment of the present invention, FIG. 2 is a waveform diagram for explaining the operation of the apparatus, and FIG. It is a graph figure which shows the total value of the sampling number with respect to distance. 1; digitizing means, 2; maximum value detecting means, 3; storage means,
4; timing generation means, 5; radar video signal, 6; equidistant period sampling signal, 7; digitized radar video signal, 8; non-equidistant period sampling signal, 9; maximum value radar video signal, 10; storage signal, 11: readout signal, 12: readout video signal

Claims (2)

(57) [Claims] 1. A digital radar in which a means for generating an equally-spaced sampling signal and a non-equally-spaced sampling signal with a gradually increasing period based on a radar trigger signal and a radar video signal are sampled and digitized by the equally-spaced sampling signal. Means for outputting a video signal, means for detecting the maximum value of the digital radar video signal included in the period of the non-equidistant sampling signal, and storage of the maximum value of the digital radar video signal detected by this means And a means for reading the maximum value of the digital radar video signal stored in the means at a constant interval. 2. Means for generating non-equidistant sampling signals whose cycle gradually increases based on a radar trigger signal, and sampling and digitizing the maximum value of each non-equidistant sampling signal of the radar video signal within each cycle. Means for outputting a maximum-value radar video signal, means for storing the maximum-value radar video signal output from this means, and means for reading the maximum-value radar video signal stored in this means at regular intervals A radar video compression device having.