Portable installation for testing measuring instruments on ships

The PZT according to MARKOWITZ, undoubtedly one of the most accurate measuring instruments, has become an integral part of astronomy in the last years. Yet there are two reasons why I still tried to improve the MARKOWITZ basic idea.For the MARKOWITZ process the use of a lens objective is imperative. Because of the diameter limitations of the lens objectives the magnitude is reduced. Although a 65 cm PZT has been put into operation in Washington recently, the thermal difficulties encountered made it necessary to control the temperature actively. In addition, the 65 cm diameter of a lens equipped with 4 elements can be considered as the very limit, but not for a mirror system.In addition there are still more disadvantages using lens objectives. The useable field is restricted by astigmatism, reducing the range of declination. The transmission, especially in the blue wavelengths, decreases very rapidly with the thickness of lenses. For large multilens objectives the transmission is less than for a mirror system.

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Mathematical simulation of error functions of decision-making at tolerance control of measuring techniques availability

Metrologiya ◽

10.32446/0132-4713.2020-3-3-15 ◽

2020 ◽

pp. 3-15

Author(s):

Rustam Z. Khayrullin ◽

Alexey S. Kornev ◽

Andrew A. Kostoglotov ◽

Sergey V. Lazarenko

Keyword(s):

Measurement Error ◽

Geometric Interpretation ◽

Measuring Instruments ◽

Measured Quantity ◽

Metrological Examination ◽

Technical Documentation ◽

Error Functions ◽

Measuring Techniques ◽

Tolerance Control ◽

Laws Of Distribution

Analytical and computer models of false failure and undetected failure (error functions) were developed with tolerance control of the parameters of the components of the measuring technique. A geometric interpretation of the error functions as two-dimensional surfaces is given, which depend on the tolerance on the controlled parameter and the measurement error. The developed models are applicable both to theoretical laws of distribution, and to arbitrary laws of distribution of the measured quantity and measurement error. The results can be used in the development of metrological support of measuring equipment, the verification of measuring instruments, the metrological examination of technical documentation and the certification of measurement methods.

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Harmonization of terminology in regulatory documents on the assessment of conformity of methods and measuring instruments with metrological requirements

Izmeritel`naya Tekhnika ◽

10.32446/0368-1025it.2019-3-8-12 ◽

2019 ◽

pp. 8-12 ◽

Cited By ~ 1

Author(s):

V. Sh. Sulaberidze ◽

◽

A. G. Chunovkina ◽

Keyword(s):

Measuring Instruments ◽

Regulatory Documents ◽

Metrological Requirements

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Analysis of the parameters that determine the reliability of the results of conformity assessment of measuring instruments to the requirements

Metrologiya ◽

10.32446/0132-4713-2018-3-3-13 ◽

2018 ◽

pp. 3-13

Author(s):

E.I. Tsvetkov ◽

◽

E.S. Syloeva ◽

Keyword(s):

Conformity Assessment ◽

Measuring Instruments

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Method of estimation of hidden correlation of narrowband noise signals

Izmeritel`naya Tekhnika ◽

10.32446/0368-1025it.2019-12-34-39 ◽

2019 ◽

pp. 34-39 ◽

Cited By ~ 1

Author(s):

E.I. Chernov ◽

N.E. Sobolev ◽

A.A. Bondarchuk ◽

L.E. Aristarhova

Keyword(s):

Signal Processing ◽

Digital Signal Processing ◽

New Technology ◽

Digital Signal ◽

Measuring Instruments ◽

Central Frequency ◽

Pearson Criterion ◽

Useful Signal ◽

Band Limited ◽

Narrowband Noise

The concept of hidden correlation of noise signals is introduced. The existence of a hidden correlation between narrowband noise signals isolated simultaneously from broadband band-limited noise is theoretically proved. A method for estimating the latent correlation of narrowband noise signals has been developed and experimentally investigated. As a result of the experiment, where a time frag ent of band-limited noise, the basis of which is shot noise, is used as the studied signal, it is established: when applying the Pearson criterion, there is practically no correlation between the signal at the Central frequency and the sum of signals at mirror frequencies; when applying the proposed method for the analysis of the same signals, a strong hidden correlation is found. The proposed method is useful for researchers, engineers and metrologists engaged in digital signal processing, as well as developers of measuring instruments using a new technology for isolating a useful signal from noise – the method of mirror noise images.

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