Abstract
This paper considers the problems of analog signal shape design for the purpose of synthesis of new measurement and testing methods. Some general design principles are formulated: the transposition, the mirror-kernel-reflection, the complementary-matching and the signal-parameter-optimization principles. Theoretical foundations are illustrated by examples of measuring and testing methods based on shape-designed signals. The paper shows that the main effort of measurement may be transferred from the processing of an output signal to the synthesis of an input signal of proper shape. The results come to the conclusion that signal shape manipulation creates a new degree of freedom in the development of the time domain measurement technique.
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