Snigur A. Precision high-speed IMS for processing similar-jumping signals on the basis of ADC with weight redundency

Українська версія

Thesis for the degree of Candidate of Sciences (CSc)

State registration number

0407U003884

Applicant for

Specialization

  • 05.11.16 - Інформаційно-вимірювальні системи

29-09-2007

Specialized Academic Board

Д 05.052.02

Vinnytsia national technical university

Essay

A research object is process of static and dynamic errors influence in measuring channel IMS on result error of informative parameters measurement similar-jumping signals provided that into structure of system it is entered АDC with weight redundancy whith selfcalibration, and allows to restore metrological characteristics periodically. The research subject is precision high-speed IMS for processing similar-jumping signals. Methods of research - are based on use: theories of the information, analog-digital convertion, in particular, on the basis of redundancy item systems. The purpose of dissertational work is an increase accuracy and speed of measuring channel IMS for processing similar-jumping signals. The theoretical meaning of the received results consists in because the method of errors correction of the switchboard of measuring channel IMS of processing similar-jumping signals, the method of increase of accuracy IMS, is advanced, a method of increase of speed IMS for processing similar-jumping signals, have received the further development mathematical models of dynamic errors of the second sort. The practical meaning of the got results consists in because the received theoretical positions have allowed to develop recommendations concerning the structurally-algorithmic organization of precision high-speed measuring channels IMS on the basis of ADC with weight redundancy, to develop recommendations for a choice of analog units of the measuring channel, to develop IMS, whith selfcalibration, to develop the software for modelling processes of indemnification of dynamic errors of the second sort and estimation parameters similar-jumping signals.

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