Abstract

This paper analyzes how the position of the pupils affects the operation of nonmisadjustable optical goniometers equipped with a geometrical-reference channel. These devices are widely used as the sensors of spacecraft-orientation systems. Based on the indicated analysis, the most rational solution is exhibited for preventing noncoincidence of the pupils of the channels from affecting the operation of high-accuracy goniometers with a geometrical-reference channel.

© 2012 OSA

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References

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  1. M. P. Kolosov, The Optics of Adaptive Goniometers (OOO SKAN-1, Moscow, 1997).
  2. M. P. Kolosov and Yu. V. Lysyuk, “Analysis of nonmisadjustable optical systems of goniometers with stationary lines of sight,” Opt. Zh. 65, No. 8, 61 (1998). [J. Opt. Technol. 65, 653 (1998)].
  3. V. I. Fedoseev and M. P. Kolosov, Optoelectronic Devices for Spacecraft Orientation and Navigation (Logos, Moscow, 2007).
  4. V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

1998 (1)

M. P. Kolosov and Yu. V. Lysyuk, “Analysis of nonmisadjustable optical systems of goniometers with stationary lines of sight,” Opt. Zh. 65, No. 8, 61 (1998). [J. Opt. Technol. 65, 653 (1998)].

1995 (1)

V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

Fedoseev, V. I.

V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

V. I. Fedoseev and M. P. Kolosov, Optoelectronic Devices for Spacecraft Orientation and Navigation (Logos, Moscow, 2007).

Karelin, A. Yu.

V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

Kolosov, M. P.

M. P. Kolosov and Yu. V. Lysyuk, “Analysis of nonmisadjustable optical systems of goniometers with stationary lines of sight,” Opt. Zh. 65, No. 8, 61 (1998). [J. Opt. Technol. 65, 653 (1998)].

M. P. Kolosov, The Optics of Adaptive Goniometers (OOO SKAN-1, Moscow, 1997).

V. I. Fedoseev and M. P. Kolosov, Optoelectronic Devices for Spacecraft Orientation and Navigation (Logos, Moscow, 2007).

Korotkova, E. L.

V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

Lysyuk, Yu. V.

M. P. Kolosov and Yu. V. Lysyuk, “Analysis of nonmisadjustable optical systems of goniometers with stationary lines of sight,” Opt. Zh. 65, No. 8, 61 (1998). [J. Opt. Technol. 65, 653 (1998)].

Opt. Zh. (2)

M. P. Kolosov and Yu. V. Lysyuk, “Analysis of nonmisadjustable optical systems of goniometers with stationary lines of sight,” Opt. Zh. 65, No. 8, 61 (1998). [J. Opt. Technol. 65, 653 (1998)].

V. I. Fedoseev, A. Yu. Karelin, and E. L. Korotkova, “Using stars to calibrate the goniometric optical devices of spacecraft,” Opt. Zh. 62, No. 9, 26 (1995). [J. Opt. Technol. 62, 586 (1995)].

Other (2)

M. P. Kolosov, The Optics of Adaptive Goniometers (OOO SKAN-1, Moscow, 1997).

V. I. Fedoseev and M. P. Kolosov, Optoelectronic Devices for Spacecraft Orientation and Navigation (Logos, Moscow, 2007).

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