Abstract

The paper formalizes a model of laser beam control. Working with real equipment implies occurence of various perturbations influencing on optical parameters of the laser beam. This increases divergence of beams and causes diminishing surface density of energy beacause of irradiation and affecting the pointing accuracy of optical navigation systems. One of the approaches to partial compensation of the perturbations influence is using adaptive optical control systems. [1], [6]-[8], [20], [22], [23] In the case it is reasonable to raise the problem of controlling the elements of laser optics system. In the paper this problem is formulated as a differential zero-sum two-person game. The game may be solved by means of analytical and numerical methods.

Original languageEnglish
Title of host publication2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE)
EditorsNV Egorov, DA Ovsyannikov, EI Veremey
PublisherIEEE Canada
Pages33-37
Number of pages5
DOIs
Publication statusPublished - 2014
Event2nd International Conference on Emission Electronics (ICEE) - Saint Petersburg
Duration: 30 Jun 20144 Jul 2014

Conference

Conference2nd International Conference on Emission Electronics (ICEE)
CountryRussian Federation
CitySaint Petersburg
Period30/06/144/07/14

Fingerprint

Laser radiation
Laser beams
Laser optics
Navigation systems
Numerical methods
Irradiation
Control systems
Compensation and Redress

Cite this

Malafeyev, O. A., Neverova, E. G., Nemnyugin, S. A., & Alferov, G. V. (2014). Multi-criteria Model of Laser Radiation Control. In NV. Egorov, DA. Ovsyannikov, & EI. Veremey (Eds.), 2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE) (pp. 33-37). [6893966] IEEE Canada. https://doi.org/10.1109/Emission.2014.6893966
Malafeyev, O. A. ; Neverova, E. G. ; Nemnyugin, S. A. ; Alferov, G. V. / Multi-criteria Model of Laser Radiation Control. 2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE). editor / NV Egorov ; DA Ovsyannikov ; EI Veremey. IEEE Canada, 2014. pp. 33-37
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title = "Multi-criteria Model of Laser Radiation Control",
abstract = "The paper formalizes a model of laser beam control. Working with real equipment implies occurence of various perturbations influencing on optical parameters of the laser beam. This increases divergence of beams and causes diminishing surface density of energy beacause of irradiation and affecting the pointing accuracy of optical navigation systems. One of the approaches to partial compensation of the perturbations influence is using adaptive optical control systems. [1], [6]-[8], [20], [22], [23] In the case it is reasonable to raise the problem of controlling the elements of laser optics system. In the paper this problem is formulated as a differential zero-sum two-person game. The game may be solved by means of analytical and numerical methods.",
author = "Malafeyev, {O. A.} and Neverova, {E. G.} and Nemnyugin, {S. A.} and Alferov, {G. V.}",
year = "2014",
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language = "Английский",
pages = "33--37",
editor = "NV Egorov and DA Ovsyannikov and EI Veremey",
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Malafeyev, OA, Neverova, EG, Nemnyugin, SA & Alferov, GV 2014, Multi-criteria Model of Laser Radiation Control. in NV Egorov, DA Ovsyannikov & EI Veremey (eds), 2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE)., 6893966, IEEE Canada, pp. 33-37, Saint Petersburg, 30/06/14. https://doi.org/10.1109/Emission.2014.6893966

Multi-criteria Model of Laser Radiation Control. / Malafeyev, O. A.; Neverova, E. G.; Nemnyugin, S. A.; Alferov, G. V.

2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE). ed. / NV Egorov; DA Ovsyannikov; EI Veremey. IEEE Canada, 2014. p. 33-37 6893966.

Research output

TY - GEN

T1 - Multi-criteria Model of Laser Radiation Control

AU - Malafeyev, O. A.

AU - Neverova, E. G.

AU - Nemnyugin, S. A.

AU - Alferov, G. V.

PY - 2014

Y1 - 2014

N2 - The paper formalizes a model of laser beam control. Working with real equipment implies occurence of various perturbations influencing on optical parameters of the laser beam. This increases divergence of beams and causes diminishing surface density of energy beacause of irradiation and affecting the pointing accuracy of optical navigation systems. One of the approaches to partial compensation of the perturbations influence is using adaptive optical control systems. [1], [6]-[8], [20], [22], [23] In the case it is reasonable to raise the problem of controlling the elements of laser optics system. In the paper this problem is formulated as a differential zero-sum two-person game. The game may be solved by means of analytical and numerical methods.

AB - The paper formalizes a model of laser beam control. Working with real equipment implies occurence of various perturbations influencing on optical parameters of the laser beam. This increases divergence of beams and causes diminishing surface density of energy beacause of irradiation and affecting the pointing accuracy of optical navigation systems. One of the approaches to partial compensation of the perturbations influence is using adaptive optical control systems. [1], [6]-[8], [20], [22], [23] In the case it is reasonable to raise the problem of controlling the elements of laser optics system. In the paper this problem is formulated as a differential zero-sum two-person game. The game may be solved by means of analytical and numerical methods.

U2 - 10.1109/Emission.2014.6893966

DO - 10.1109/Emission.2014.6893966

M3 - статья в сборнике материалов конференции

SP - 33

EP - 37

BT - 2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE)

A2 - Egorov, NV

A2 - Ovsyannikov, DA

A2 - Veremey, EI

PB - IEEE Canada

ER -

Malafeyev OA, Neverova EG, Nemnyugin SA, Alferov GV. Multi-criteria Model of Laser Radiation Control. In Egorov NV, Ovsyannikov DA, Veremey EI, editors, 2014 2ND INTERNATIONAL CONFERENCE ON EMISSION ELECTRONICS (ICEE). IEEE Canada. 2014. p. 33-37. 6893966 https://doi.org/10.1109/Emission.2014.6893966