Employing Digital Filters in Order to Decrease Random Error in Laser Gyroscope and Pendulous Accelerometer Readings
| Authors: Kolbas Yu.Yu., Kurdybanskaya A.I. | Published: 13.04.2018 |
| Published in issue: #2(119)/2018 | |
| DOI: 10.18698/0236-3933-2018-2-27-40 | |
| Category: Instrument Engineering, Metrology, Information-Measuring Instruments and Systems | Chapter: Navigation Instruments | |
| Keywords: laser gyroscope, accelerometer, digital filter, random output error | |
The study deals with digital filters used to decrease random error in output of laser gyroscopes and pendulous accelerometers. We show that digital filtering of the output of a laser gyroscope featuring mechanical dither is highly efficient, this method being an easy and convenient way to eliminate the dither signal from the laser gyroscope readings. Filtering the output of laser gyroscopes featuring magneto-optic biasing makes it possible to reduce the maximum sampling error. In the case of pendulous accelerometers of various types, digital filtering helps to significantly decrease noises inherent in the accelerometer channel path, including pickup and noise in the analog-to-digital converter
References
[1] Sukhanov S.V. Error compensation algorithms for laser gyroscope output signal. Vestnik Nizhegorodskogo universiteta N.I. Lobachevskogo [Vestnik of Lobachevsky University of Nizhni Novgorod], 2011, no. 3 (2), pp. 134–140 (in Russ.).
[2] Enin V.N., Saneev V.I. Numerical analysis of frequency dither influence on the output characteristic of the ring laser gyroscope. Nauka i obrazovanie: nauchnoe izdanie [Science and Education: Scientific Publication], 2015, no. 3 (in Russ.). DOI: 10.7463/0315.0759705 Available at: http://technomag.bmstu.ru/doc/759705.html
[3] Ifeachor E., Jervis B. Digital signal processing: a practical approach. Prentice Hall, 2001. 960 p.
[4] Johnson D., Johnson J., Moore H. A handbook of active filters. Prentice-Hall, 1980. 244 p.
[5] Saneev I.V. On the selection of the digital filter at the laser gyrometer output in the mode of measuring small constant angular velocity. Inzhenernyy zhurnal: nauka i innovatsii [Engineering Journal: Science and Innovation], 2015, no. 1 (in Russ.). DOI: 10.18698/2308-6033-2015-1-1358 Available at: http://engjournal.ru/catalog/it/nav/1358.html
[6] Saneev I.V. Output signal digital processing of laser gyroscope with a mechanical dither. Molodezhnyy nauchno-tekhnicheskiy vestnik, 2012, no. 10 (in Russ.). Available at: http://sntbul.bmstu.ru/doc/492227.html
[7] Vakhitov N.G., Golyaev Yu.D., Dronov I.V., et al. Zeeman laser gyro with switching of longitudinal modes of generation. Vestn. Mosk. Gos. Tekh. Univ. im. N.E. Baumana, Priborostr. [Herald of the Bauman Moscow State Tech. Univ., Instrum. Eng.], 2014, no. 2, pp. 10–27 (in Russ.).
[8] Golyaev Yu.D., Dmitriev V.G., Kazakov A.A., et al. Sposob izmereniya uglovykh peremeshcheniy lazernym giroskopom [A method for measuring angular movements by laser gyroscope]. Patent RF № 2408844. Appl. 07.10.2009, publ. 10.01.2011.
[9] Golyaev Yu.D., Kolbas Yu.Yu. Output signal sampling errors in a periodic-base ring laser. ZhTF, 1991, vol. 61, no. 8, pp. 162–165 (in Russ.).
[10] Golyaev Yu.D., Kolbas Yu.Yu., Konovalov S.F., Solovyeva T.I., Tomilin A.V. Investigations and comparative tests of the accelerometers in the inertial measurement unit. Sistemotekhnika: Sistemnye problemy nadezhnosti, kachestva i informatsionnykh tekhnologiy, 2012, no. 10 (in Russ.). Available at: http://systech.miem.edu.ru/documents/1355313060_kriteriy%20vibora%20aks.doc (accessed: 07.05.2017).
