ISSN 0021-3454 (print version)
ISSN 2500-0381 (online version)
Menu

2
Issue
vol 67 / February, 2024
Article

DOI 10.17586/0021-3454-2019-62-3-235-241

UDC 531.383-1,532.1+539.17

ANALYSIS OF VARIANCE IN THE STUDY OF PROBLEMS IN SMALL SCALE PRODUCTION OF TWO-STEP FLOATED GYROSCOPES

B. L. Sharygin
Concern CSRI Electropribor, JSC, Saint Petersburg, 197046, Russian Federation, Saint Petersburg, 197046, Russian Federation; Design manager


Read the full article 

Abstract. Problems arising in the small-scale production of two-stage float gyroscopes, are considered. Results of a study of variances as applied to these problems are presented. The experience in the use of dispersion analysis in the study of gyromotor rotors quality using MS Excel program is discussed. The influence of the human factor on the FD-factor of the adjusted device was investigated by means of one-factor analysis of variance. As a result, the hypothesis H1 about the presence of such influence is accepted, and the null hypothesis about the absence of the human factor influence on the integral estimation of the accuracy of the azimuthal gyroscope is confirmed. Results of the single-factor analysis of variance confirming the alternative hypothesis H1 on the significant effect of melting on the magnetic energy of the rotor blanks, are presented. The absence of the influence of difference in melting on the run-out time of the gyromotor in three orientations and on the values of consumption currents in the steady state mode is established. Two-factor analysis of variance is used in the study of the final FD-factor of the device. Results related to the effect on two independent variables — the human factor and the type of stator compound — are presented.
Keywords: analysis of variance, float gyroscope, precision, factor, gyromotor, hypothesis

References:
  1. Sipenkov I.E., Fillipov A.Yu., Boldyrev Yu.Ya., Grigor’yev B.S., Zablotskiy N.D., Luchin G.A., Panich T.V. Pretsizionnyye gazovyye podshipniki (Precision Gas Bearings), St. Petersburg, 2007, 504 р. (in Russ.)
  2. Evstifeyeva O.M., Ignat’yev S.V. GYROSCOPY AND NAVIGATION, 2006, no. 2(53), pp. 96. (in Russ.)
  3. Draper N., Smith H. Applied Regression Analysis, 3 Edition, John Wiley & sons, Inc., 1998 736 p.
  4. Scheffe H. Analysis of Variance, Wiley, 1959, 477 p.
  5. Peshekhonov V.G., Mironov Yu.V., Sharygin B.L. Marine Radio-electronics, 2003, no. 1(4). (in Russ.)
  6. Alekseyev S.P., Zakharov I.G., Peshekhonov V.G., Mironov Yu.V., Sharygin B.L., Yatsenko S.V. So-vremennoye sostoyaniye i problemy navigatsii i okeanografii “NO-2004” (Current State and Problems of Navigation and Oceanography "NO-2004”), Proceedings of the conference, St. Petersburg, 2004, vol. 1, рр. 24–28. (in Russ.)
  7. Fevraleva N.E. Magnitno-tverdyye materialy i postoyannyye magnity (Magnetic Hard Materials and Permanent Magnets), Kiev, 1969, 232 р. (in Russ.)
  8. Livshits B.G., L’vov V.S. Vysokokoertsitivnyye splavy na zhelezonikel’alyuminiyevoy osnove (High Coercive Iron Nickel-Aluminum Alloys), Moscow, 1960, 156 р. (in Russ.)
  9. Martynenko Yu.G. International Soros Science Education Program, 1997, no. 11, рр. 120–127. (in Russ.)
  10. Butsyk A.Ya., Donetskaya Yu.V., Sharygin B.L. Journal of Instrument Engineering, 2017, no. 3(60), рр. 280–286. DOI 10.17586/0021-3454-2017-60-3-280-286. (in Russ.)