Abstract

This paper analyzes existing ultrawide-angle objectives (angular field about 180°) for static devices for the orientation of spacecraft toward the sun and with respect to the earth and formulates the requirements on the objectives for such high-accuracy devices. The design features of these objectives are considered. Layouts for four-lens objectives that have been developed are presented and analyzed.

© 2010 Optical Society of America

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  1. V. I. Fedoseev and M. P. Kolosov, Optoelectronic Devices for the Orientation and Navigation of Spacecraft (Logos, Moscow, 2007).
  2. G. S. Cheremukhin, Devices for Orientation toward the Sun for Spacecraft (Voentekhinizdat, Moscow, 2004).
  3. G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).
  4. Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).
  5. L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].
  6. M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.
  7. L. I. Kargu and A. A. Gritsenko, “Horizon sensor,” Russian Patent 2 020 419 (1994).
  8. M. V. Urusova, “Construction principles of panoramic optical systems of optoelectronic devices based on optical panoramic units,” Author's Abstract of Dissertation for Candidate, Moscow, MÉI (2007).
  9. M. M. Rusinov, The Composition of Optical Systems (Mashinostroenie, Leningrad, 1989).
  10. G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].
  11. S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].
  12. V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 11, 20 (1971).
  13. V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 3, 29 (1974).
  14. A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

2006 (1)

S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].

S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].

2005 (1)

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

2003 (1)

G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).

1998 (2)

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

1974 (1)

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 3, 29 (1974).

1971 (1)

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 11, 20 (1971).

Avanesov, G. A.

G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).

Bagdasarov, A. A.

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

Bagdasarova, O. V.

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

Belyakov, G. F.

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

Cheremukhin, G. S.

G. S. Cheremukhin, Devices for Orientation toward the Sun for Spacecraft (Voentekhinizdat, Moscow, 2004).

Denisov, V. V.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Egupov, A. N.

Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).

Fedoseev, V. I.

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

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Forsh, A. A.

G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).

Glebovich, L. A.

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

Gritsenko, A. A.

L. I. Kargu and A. A. Gritsenko, “Horizon sensor,” Russian Patent 2 020 419 (1994).

Karelin, A. Yu.

A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

Kargu, L. I.

L. I. Kargu and A. A. Gritsenko, “Horizon sensor,” Russian Patent 2 020 419 (1994).

Khairulin, B. K.

Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).

Kolosov, M. P.

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

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Kuz'mina, T. A.

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

Marchuk, S. M.

S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].

S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].

Nikitin, A. V.

G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).

Pevunchikov, I. V.

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

Pirogov, M. G.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).

Rusinov, M. M.

M. M. Rusinov, The Composition of Optical Systems (Mashinostroenie, Leningrad, 1989).

Strizhova, N. M.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Tarabukin, V. V.

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 3, 29 (1974).

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 11, 20 (1971).

Terekhov, M. A.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Urusova, M. V.

M. V. Urusova, “Construction principles of panoramic optical systems of optoelectronic devices based on optical panoramic units,” Author's Abstract of Dissertation for Candidate, Moscow, MÉI (2007).

Varlamov, V. I.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Videtskikh, Yu. A.

Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Ya. Gebgart, A.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Yu. Zenzinov, S.

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

Izv. Vyssh. Uchebn. Zaved. Prib. (1)

G. A. Avanesov, A. V. Nikitin, and A. A. Forsh, “An optical solar sensor,” Izv. Vyssh. Uchebn. Zaved. Prib. 46, No. 4, 66 (2003).

Opt. Mekh. Prom. (2)

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 11, 20 (1971).

V. V. Tarabukin, “Designing ultrawide-angle photographic systems,” Opt. Mekh. Prom. No. 3, 29 (1974).

Opt. Zh. (4)

A. Yu. Karelin, “Enhancing the accuracy of wide-field astronomical measurement devices with CCD arrays,” Opt. Zh. 11, No. 8, 46 (1998) A. Yu. Karelin,[J. Opt. Technol. 11, 640 (1998)].

G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina, “A study and evaluation of the light distribution in the image plane of superwide-angle objectives for minivideo cameras with CCD arrays,” Opt. Zh. 72, No. 3, 23 (2005) G. F. Belyakov, A. A. Bagdasarov, O. V. Bagdasarova, and T. A. Kuz'mina,[J. Opt. Technol. 72, 245 (2005)].

S. M. Marchuk, “Wide-angle projection objective for an information-display system,” Opt. Zh. 73, No. 12, 27 (2006) S. M. Marchuk,[J. Opt. Technol. 73, 846 (2006)].

L. A. Glebovich and I. V. Pevunchikov, “Prospective systems for constructing IR devices for orientation with respect to the earth,” Opt. Zh. 65, No. 8, 76 (1998) L. A. Glebovich and I. V. Pevunchikov,[J. Opt. Technol. 65, 666 (1998)].

Other (7)

M. G. Pirogov, Yu. A. Videtskikh, V. I. Fedoseev, V. I. Varlamov, S. Yu. Zenzinov, M. P. Kolosov, N. M. Strizhova, A. Ya. Gebgart, V. V. Denisov, and M. A. Terekhov, “Devices for orientation with respect to the earth, based on uncooled microbolometer detector arrays for spacecraft,” in Abstracts of Reports of the Twentieth International Scientific and Technical Conference on Photoelectronics and Night-Vision Devices (NPO Orion, Moscow, 2008), pp. 66-67.

L. I. Kargu and A. A. Gritsenko, “Horizon sensor,” Russian Patent 2 020 419 (1994).

M. V. Urusova, “Construction principles of panoramic optical systems of optoelectronic devices based on optical panoramic units,” Author's Abstract of Dissertation for Candidate, Moscow, MÉI (2007).

M. M. Rusinov, The Composition of Optical Systems (Mashinostroenie, Leningrad, 1989).

Yu. A. Videtskikh, A. N. Egupov, M. G. Pirogov, and B. K. Khaĭrulin, “Sensor of the angular position of the sun,” Russian Patent 2 308 005 (2007).

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

G. S. Cheremukhin, Devices for Orientation toward the Sun for Spacecraft (Voentekhinizdat, Moscow, 2004).

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