Abstract
This study is concerned with the problem of increasing the accuracy of a low-altitude altimeter employing the frequency modulation principle. A way to suppress the "discrete error" of the altimeter by employing additional "slow" frequency modulation of the carrier wave and averaging the resulting counts is considered. The benefit of such approach is simplicity of technical implementation manifesting in minimal changes in the microwave path and the recording device, which needs to run in averaging count mode. It is shown that, given a limited frequency band, the linear modulation form is not optimal. Results of error calculations presented are obtained via mathematical modelling of the altimeter's operation. It is shown that using the genetic algorithm of additional modulation frequency optimization for a given altitude range allows to reduce the average measurement error two times relatively to the linear modulation form without expanding the occupied frequency band.
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