Abstract

This paper discusses aspects of obtaining and processing time-varying video-spectral data recorded by space-based optoelectronic remote-probing facilities. The results are presented of an analysis of seasonal changes of the spectral properties of objects of the underlying surface, obtained on the basis of a time series of the data of the Hyperion space-based video spectrometer.

© 2013 Optical Society of America

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References

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  1. A. V.  Markov, B. V.  Shilin, “Problems of developing videospectral aerial recording,” Opt. Zh. 76, No. 2, 20 (2009) [J. Opt. Technol. 76, 69 (2009)].
  2. F. D.  Van Der Meer, S. M.  De Long, Imaging Spectrometry. Basic Principles and Prospective Applications (Springer, New York, 2006).
  3. R. A.  Shovengerdt, Remote Probing. Models and Methods of Image Processing (Tekhnosfera, Moscow, 2010).
  4. A. N.  Grigor’ev, “A method of reducing the selectivity of the hyperspectral data of remote probing of the earth,” in Collection of the Papers of the Fifth All-Russia Scientific–Engineering Conference on Crucial Problems of Rocket–Space Instrumentation and Information Technologies (OAO Ross. Kosm. Sistemy, Moscow, 2012).
  5. A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).
  6. M. A.  Faddeev, Elementary Processing of Experimental Results (Izd. Nizhegorod. Gosuniv., Nizhni? Novgorod, 2002).
  7. P.  Kronberg, Remote Probing of the Earth (Mir, Moscow, 1988).
  8. L. I.  Chapurski?, Reflective Properties of Natural Objects in the 400–2500 nm Range (MO SSSR, Moscow, 1986).

2009 (1)

A. V.  Markov, B. V.  Shilin, “Problems of developing videospectral aerial recording,” Opt. Zh. 76, No. 2, 20 (2009) [J. Opt. Technol. 76, 69 (2009)].

Altukhov, A. I.

A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).

Chapurskii, L. I.

L. I.  Chapurski?, Reflective Properties of Natural Objects in the 400–2500 nm Range (MO SSSR, Moscow, 1986).

De Long, S. M.

F. D.  Van Der Meer, S. M.  De Long, Imaging Spectrometry. Basic Principles and Prospective Applications (Springer, New York, 2006).

Faddeev, M. A.

M. A.  Faddeev, Elementary Processing of Experimental Results (Izd. Nizhegorod. Gosuniv., Nizhni? Novgorod, 2002).

Gnusarev, N. V.

A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).

Grigor’ev, A. N.

A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).

A. N.  Grigor’ev, “A method of reducing the selectivity of the hyperspectral data of remote probing of the earth,” in Collection of the Papers of the Fifth All-Russia Scientific–Engineering Conference on Crucial Problems of Rocket–Space Instrumentation and Information Technologies (OAO Ross. Kosm. Sistemy, Moscow, 2012).

Kozin, E. V.

A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).

Kronberg, P.

P.  Kronberg, Remote Probing of the Earth (Mir, Moscow, 1988).

Markov, A. V.

A. V.  Markov, B. V.  Shilin, “Problems of developing videospectral aerial recording,” Opt. Zh. 76, No. 2, 20 (2009) [J. Opt. Technol. 76, 69 (2009)].

Shilin, B. V.

A. V.  Markov, B. V.  Shilin, “Problems of developing videospectral aerial recording,” Opt. Zh. 76, No. 2, 20 (2009) [J. Opt. Technol. 76, 69 (2009)].

Shovengerdt, R. A.

R. A.  Shovengerdt, Remote Probing. Models and Methods of Image Processing (Tekhnosfera, Moscow, 2010).

Van Der Meer, F. D.

F. D.  Van Der Meer, S. M.  De Long, Imaging Spectrometry. Basic Principles and Prospective Applications (Springer, New York, 2006).

Opt. Zh. (1)

A. V.  Markov, B. V.  Shilin, “Problems of developing videospectral aerial recording,” Opt. Zh. 76, No. 2, 20 (2009) [J. Opt. Technol. 76, 69 (2009)].

Other (7)

F. D.  Van Der Meer, S. M.  De Long, Imaging Spectrometry. Basic Principles and Prospective Applications (Springer, New York, 2006).

R. A.  Shovengerdt, Remote Probing. Models and Methods of Image Processing (Tekhnosfera, Moscow, 2010).

A. N.  Grigor’ev, “A method of reducing the selectivity of the hyperspectral data of remote probing of the earth,” in Collection of the Papers of the Fifth All-Russia Scientific–Engineering Conference on Crucial Problems of Rocket–Space Instrumentation and Information Technologies (OAO Ross. Kosm. Sistemy, Moscow, 2012).

A. I.  Altukhov, A. N.  Grigor’ev, N. V.  Gnusarev, E. V.  Kozin, Space-Based Systems for the Remote Probing of the Earth. Data Processing (VKA im. A. F. Mozha?skogo, St. Petersburg, 2011).

M. A.  Faddeev, Elementary Processing of Experimental Results (Izd. Nizhegorod. Gosuniv., Nizhni? Novgorod, 2002).

P.  Kronberg, Remote Probing of the Earth (Mir, Moscow, 1988).

L. I.  Chapurski?, Reflective Properties of Natural Objects in the 400–2500 nm Range (MO SSSR, Moscow, 1986).

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