Abstract

This article is devoted to the development of a compact optoelectronic device for recording images of remote objects while determining their geographical coordinates. The optical layout of the device is presented, with an algorithm for operating it. The operating principle is described, along with a technique for designing a collimating optical device that records on its photos and video images the geographical coordinates, the date, and the time that the picture of the object was taken.

© 2012 OSA

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  1. V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).
  2. V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.
  3. G. M. Mosyagin, V. B. Nemtinov, and E. N. Lebedev, The Theory of Optoelectronic Systems (Mashinostroenie, Moscow, 1990).
  4. E. V. Andreeva and Yu. E. Egorov, “Computational geometry on a plane,” Informatika No. 40, 28 (2002).

2009 (1)

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

2002 (1)

E. V. Andreeva and Yu. E. Egorov, “Computational geometry on a plane,” Informatika No. 40, 28 (2002).

Achil’diev, V. M.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Andreeva, E. V.

E. V. Andreeva and Yu. E. Egorov, “Computational geometry on a plane,” Informatika No. 40, 28 (2002).

Egorov, Yu. E.

E. V. Andreeva and Yu. E. Egorov, “Computational geometry on a plane,” Informatika No. 40, 28 (2002).

Gruzevich, Yu. K.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Lebedev, E. N.

G. M. Mosyagin, V. B. Nemtinov, and E. N. Lebedev, The Theory of Optoelectronic Systems (Mashinostroenie, Moscow, 1990).

Levkovich, A. D.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Lisov, M. A.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Mosyagin, G. M.

G. M. Mosyagin, V. B. Nemtinov, and E. N. Lebedev, The Theory of Optoelectronic Systems (Mashinostroenie, Moscow, 1990).

Nemtinov, V. B.

G. M. Mosyagin, V. B. Nemtinov, and E. N. Lebedev, The Theory of Optoelectronic Systems (Mashinostroenie, Moscow, 1990).

Pozdnyakov, V. V.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

Soldatenkov, V. A.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Zorin, P. F.

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

Informatika (1)

E. V. Andreeva and Yu. E. Egorov, “Computational geometry on a plane,” Informatika No. 40, 28 (2002).

Vest. Mosk. Gos. Univ. Lesa (1)

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, and V. V. Pozdnyakov, “Positioning systems for optoelectronic observation and orientation systems,” Vest. Mosk. Gos. Univ. Lesa 69, No. 6, 52 (2009).

Other (2)

V. A. Soldatenkov, Yu. K. Gruzevich, V. M. Achil’diev, A. D. Levkovich, M. A. Lisov, and P. F. Zorin, “Optoelectronic device for determining the geographic coordinates of a remote object with an integrated micromechanical platformless navigational system,” in Collection of the Transactions of the Seventeenth St. Petersburg Int. Conf. on Integrated Navigation Systems, St. Petersburg, 2010, pp. 269–276.

G. M. Mosyagin, V. B. Nemtinov, and E. N. Lebedev, The Theory of Optoelectronic Systems (Mashinostroenie, Moscow, 1990).

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