The paper presents the results of the development and research of gyrostabilized platforms for angular stabili- zation of various complexes of optical devices: television cameras, thermal imagers, rangefinders. The construction prin- ciples of such devices are considered, the required accuracy of stabilization is determined and the main problems arising during their development are designated. Gyrostabilized optoelectronic systems of various composition, designation and accuracy are presented.

1.
G.
Holst
Electro-Optical Imaging System Performance
. d6 ed. (
SPIE press
.,
US
,
2017
). pp.
386
389
2.
R. G.
Driggers
,
P.
Cox
, and
T.
Edwards
,
Introduction to Infrared and Electro-Optical Systems
(
Artech House, Norwood, MA
,
1999
) pp.
120
122
.
3.
V.V.
Tarasov
and
Yu.G.
Yakushenkov
Infrared Systems of “looking” Type.
(
Logos, Moscow
,
2004
) pp.
67
70
.
4.
D.
Kowal
, D. “Considerations for opto-mechanical vs. digital stabilization in surveillance systems” in
Infra- red Technology and Applications XlI
(
International Society for Optics and Photonics
,
2015
) Vol.
9451
, pp.
94510B
.
5.
J. M.
Hilkert
, “
Inertially Stabilized Platform Tchnology: Concepts and Pnciple.
”,
IEEE Control Systems Magazine
, vol.
28
, no.
1
, (
2008
)
26
46
.
6.
M.
Masten
, “
Inertially Stabilized Platforms for Optical Imaging Systems: Tracking Dynamic Targets with Mobile Sensors
”,
IEEE Control Systems Magazine
, vol.
28
, no.
2
, (
2008
)
47
64
.
7.
A.A.
Kokush
,
V.V.
Fateev
,
L.N.
Evstratov
and
V.V.
Kozlov
 U.S. Patent No. 5,868,031. (9 Feb.
1999
).
8.
V. V.
Kozlov
,
A. V.
Kuleshov
and
V.V.
Fateev
,
Aerospace Instrument-making.
12
,
27
42
(
2013
).
9.
S.
Tritchew
,
A.
Raigo
and
L.
Michael
 pD. U.S. Patent No. 5,897,223. (27 April
1999
).
10.
S.
Junyi
,
P.
Feng
,
C.
Yanchun
,
L.
Weixing
and
Z.
Junhua
Research on an extended state observer based self tuning control strategy for a two-axis four-gimbal servo system
” in
2015 34th Chinese Control Conference (IEEE
2015
), pp.
4400
4405
.
11.
A.
Rue
, “
Precision Stabilization Systems
,”
IEEE
, vol.
AES-10
, no.
1
, (
1974
)
34
42
.
12.
L.
Davain
,
S.
Fabien
, and
T.
Erler
Dedicated algorithm for line of sight stabilization and orientation
” in
2015 DGON Inertial Sensors and Systems Symposium (ISS)
, (IEEE,
2015
) pp.
1
22
.
13.
Z.
Hurak
and
M.
Rezac
Image-Based Pointing and Tracking for Inertially Stabilized Airborne Camera Platform
IEEE Transactions on Control Systems Technology
,
20
(
5
), (
2011
)
1146
1159
.
14.
T. p.
Ricks
,
M.M.
Burton
,
W.
Cruger
and
R.
Reynolds
Stabilized electro-optical airborne instrumentation platform (SEAIP
)” in
Chemical and Biological Standoff Detection (International Society for Optics and Photonics
,
2004
), Vol.
5268
, pp.
202
209
15.
L.M.
West
and
T.
Segerstrom
Commercial applications in aerial thermography: Power line inspection, re- search, and environmental studies
” in
Thermosense XXII (International Society for Optics and Photonics
,
2000
) Vol.
4020
, pp.
382
386
.
16.
A. V.
Kuleshov
and
V. V.
Fateev
,
Instruments and Systems: Monitoring, Control, and Diagnostics.
12
,
7
13
(
2017
).
17.
J.N.
Leavitt
,
A.
Raigo
and
E.C.
Dafoe
 U.S. Patent No. 3,638,502. (
1972
).
18.
V.V.
Fateyev
and
A.V.
Kuleshov
“Flywheel indicator gyrostabilizer with housing torque motor” in
AIP Con- ference Proceedings
(
AIP Publishing
,
2019
) Vol.
2171
, No.
1
,
190012
19.
V.V.
Fateyev
Gyroscopic stabilizers with flywheel drive
”,
Instrumentation
, №
11
(
1985
)
20.
V.A.
Matveev
,
V.P.
Podchezertsev
and
V.V.
Fateev
Gyroscopic Stabilizers for Dynamically Tuned Vibratory Gyroscopes
(
BMSTU
,
Moscow
,
2005
), pp
65
101
21.
J.C.
DeBruin
Dynamically tuned gyroscopes in stabilized electro-optical sights
” in
Acquisition, Tracking, and Pointing XIII (International Society for Optics and Photonics
,
1999
) Vol.
3692
, pp.
94
100
.
22.
Y. B.
Shtessel
Sliding mode stabilization of three axis inertial platform” in
Proceedings of 26th Southeastern Symposium on System Theory (IEEE, 1994
) pp.
54
58
.
23.
V.A.
Besekerskii
and
E.A.
Fabrikant
Dynamic Synthesis of Gyroscopic Stabilization Systems
, (
Sudostroenie, Leningrad
,
1968
).
24.
M.R.
Sweeney
,
L.
Redd
,
T.
Vettese
,
R.
Myatt
,
D.
Uchida
and
D.
Sellers
Design and manufacturing consid- erations for high-performance gimbals used for land, sea, air, and space
” in
Material Technologies and Ap- plications to Optics, Structures, Components, and Sub-Systems II (International Society for Optics and Photonics
,
2015
) Vol.
9574
, p.
957404
.
25.
B. H.
Kim
and
M. Y.
Kim
Active LOS stabilization of pan-tilt motion control system using an adaptive notch filtering based on Gyro sensing and FFT analysis
” in
2014 International Symposium on Optomechatronic Technologies (IEEE
,
2014
) pp.
61
65
.
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