Conclusions
In order to utilize more completely the potentialities of measuring instruments that have a broad range of application, it is advisable to cite the error distribution function in the documentation for these instruments, thus making it possible to estimate the results of specific measurements in accord with the measuring criterion needed.
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Literature cited
M. F. Malikov, Fundamentals of Metrology [in Russian], Moscow (1949).
All-Union State Standard 13600-68. State System for Unanimity of Measurements. Measuring Equipment, Accuracy Classes. General Aspects.
G. A. Kavalerov and S. M. Mandel'shtam, Izmeritel. Tekh., No. 7 (1965).
P. V. Novitskii, Fundamentals of Information Theory for Measuring Equipment [in Russian], Énergiya, Moscow (1968).
P. Nath, Matrica,13, No. 2, (1968).
A. S. Rivkin, Izmeritel. Tekh., No. 2 (1968).
R. Fano, Information Theory. Statistical Theory of Communication [in Russian], Mir, Moscow (1965).
V. S. Pugachev, Theory of Random Functions and its Application to Automatic Control Problems [in Russian], State Publishing House of Physical and Mathematical Literature, Moscow (1960).
N. N. Krasil'nikov, Radiotekhnika, No. 1 (1966).
D. Midlton, Introduction to Statistical Communication Theory [in Russian], Sov. Radio, Vol. 1 (1961), Vol. 2 (1962).
V. Ya. Rozenberg and N. A. Rubichev, Summary of Reports of the Seventh All-Union Conference on “Cybernetic Methods in Measuring Theory and Practice” [in Russian], Leningrad (1970).
Additional information
Translated from Izmeritel'naya Tekhnika, No. 2, pp. 19–20, February, 1972.
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Rubichev, N.A. Error in mass production measuring instruments. Meas Tech 15, 209–211 (1972). https://doi.org/10.1007/BF01105727
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DOI: https://doi.org/10.1007/BF01105727