Abstract

A mathematical model has been constructed for the mirror-control system of a search-and-scanning system mounted on an aircraft. Control algorithms are proposed that provide the required dynamic scanning, aiming, and tracking characteristics. Simulation models have been developed for three operating regimes: scanning, aiming, and tracking.

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  1. I. P. Torshina, Computer Modelling of Optoelectronic Systems of Primary Processing of Information (Logos, Moscow, 2009).
  2. A. I. Karpov and V. A. Strezhnev, The Dynamics and Calculational Methods of Automatic Control Systems of Stratospheric Observatories. Identification, Decomposition, and Synthesis. A Monograph (Izd. Kazan. Gos. Tekhn. Univ, Kazan, 2008).
  3. L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.
  4. Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].
  5. A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.
  6. Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.
  7. A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.
  8. N. V. Butenin, Ya. L. Lunts, and D. R. Merkin, A Course in Theoretical Dynamics. A Textbook in Two Volumes, vol. 2, Dynamics (Nauka, Moscow, 1979).
  9. P. Appel’, Theoretical Mechanics, vol. 2, System Dynamics. Analytical Mechanics (Gos. Izd. Fiz. Mat. Lit, Moscow, 1960).
  10. V. A. Besekerskiĭ and E. P. Popov, The Theory of Automatic Regulation Systems (Nauka, Moscow, 1975).

2009 (1)

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

Appel’, P.

P. Appel’, Theoretical Mechanics, vol. 2, System Dynamics. Analytical Mechanics (Gos. Izd. Fiz. Mat. Lit, Moscow, 1960).

Belyakov, Yu. M.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

Besekerskii, V. A.

V. A. Besekerskiĭ and E. P. Popov, The Theory of Automatic Regulation Systems (Nauka, Moscow, 1975).

Butenin, N. V.

N. V. Butenin, Ya. L. Lunts, and D. R. Merkin, A Course in Theoretical Dynamics. A Textbook in Two Volumes, vol. 2, Dynamics (Nauka, Moscow, 1979).

Dul’kin, L. Z.

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

Karpov, A. I.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

A. I. Karpov and V. A. Strezhnev, The Dynamics and Calculational Methods of Automatic Control Systems of Stratospheric Observatories. Identification, Decomposition, and Synthesis. A Monograph (Izd. Kazan. Gos. Tekhn. Univ, Kazan, 2008).

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.

Krenev, V. A.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

Lunts, Ya. L.

N. V. Butenin, Ya. L. Lunts, and D. R. Merkin, A Course in Theoretical Dynamics. A Textbook in Two Volumes, vol. 2, Dynamics (Nauka, Moscow, 1979).

Matrosov, V. M.

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

Matveev, A. G.

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.

Merkin, D. R.

N. V. Butenin, Ya. L. Lunts, and D. R. Merkin, A Course in Theoretical Dynamics. A Textbook in Two Volumes, vol. 2, Dynamics (Nauka, Moscow, 1979).

Molin, D. A.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

Molin, D. A.

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

Popov, E. P.

V. A. Besekerskiĭ and E. P. Popov, The Theory of Automatic Regulation Systems (Nauka, Moscow, 1975).

Strezhnev, V. A.

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

A. I. Karpov and V. A. Strezhnev, The Dynamics and Calculational Methods of Automatic Control Systems of Stratospheric Observatories. Identification, Decomposition, and Synthesis. A Monograph (Izd. Kazan. Gos. Tekhn. Univ, Kazan, 2008).

Torshina, I. P.

I. P. Torshina, Computer Modelling of Optoelectronic Systems of Primary Processing of Information (Logos, Moscow, 2009).

Yatsyk, V. S.

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.

Zemlyakov, A. S.

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

Opt. Zh. (1)

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, and D. A. Molin, “Technique for developing mathematical models of automatic on-board optoelectronic systems,” Opt. Zh. 76, No. 3, 34 (2009). [J. Opt. Technol. 76, 142 (2009)].

Other (9)

A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Developing a computerized simulation model of an on-board optoelectronic device,” in Collection of the Materials of the Twenty-First All-Russia Inter-university Scientific-and-Engineering Conference on Electromechanical and Intrachamber Processes in Energy Apparatus, Jet Acoustics and Diagnostics, Devices and Methods for Monitoring Natural Media, Substances, Materials, and Items, Kazan, 2009, pp. 239–241, chap. 2.

Yu. M. Belyakov, A. I. Karpov, V. A. Krenev, A. G. Matveev, D. A. Molin, and V. S. Yatsyk, “Using a simulation model of mirror control in space when developing optoelectronic devices,” in Abstracts of Reports of the Scientific–Practical Conference on Optics, Photonics, and Optoinformatics in Science and Engineering, Moscow, 2009, p. 71.

A. I. Karpov, V. A. Krenev, A. G. Matveev, and V. S. Yatsyk, “On the question of constructing a mathematical model of a device for scanning optoelectronic systems,” in Materials of the International Scientific–Practical Conference on Modern Technologies—a Key Link in the Revival of This Country’s Aircraft Construction, Kazan, 2008, vol. 2, pp. 56–60.

N. V. Butenin, Ya. L. Lunts, and D. R. Merkin, A Course in Theoretical Dynamics. A Textbook in Two Volumes, vol. 2, Dynamics (Nauka, Moscow, 1979).

P. Appel’, Theoretical Mechanics, vol. 2, System Dynamics. Analytical Mechanics (Gos. Izd. Fiz. Mat. Lit, Moscow, 1960).

V. A. Besekerskiĭ and E. P. Popov, The Theory of Automatic Regulation Systems (Nauka, Moscow, 1975).

I. P. Torshina, Computer Modelling of Optoelectronic Systems of Primary Processing of Information (Logos, Moscow, 2009).

A. I. Karpov and V. A. Strezhnev, The Dynamics and Calculational Methods of Automatic Control Systems of Stratospheric Observatories. Identification, Decomposition, and Synthesis. A Monograph (Izd. Kazan. Gos. Tekhn. Univ, Kazan, 2008).

L. Z. Dul’kin, A. S. Zemlyakov, V. M. Matrosov, V. A. Strezhnev, and A. I. Karpov, “Problems of invariance and stability in the dynamics of stratospheric observatories,” in The Method of Lyapunov Functions in the Dynamics of Nonlinear Systems (Nauka, Novosibirsk, 1983), pp. 157–158.

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