Problems of Aero-optics and Adaptive Optical Systems: Analytical Review

<p<The analytical review gives the basic concepts of the aero-optics problem arising from the radiation propagation in the region of the boundary layers of a laser installation carrier aircraft. Estimates the radiation wave front distortions at its propagation in the near and far field. Presents main calculation approaches and methods to solve the gas-dynamic and optical problems in propagating laser radiation. Conducts a detailed analysis of the flows and their generating optical aberrations introduced by the aircraft turret (a projection platform of the on-board laser). Considers the effect of various factors (shock wave, difference in wall and flow temperatures) on the flow pattern and the optical aberrations. Provides research data on the aero-optics obtained in the flying laboratory directly while in flight. Briefly considers the experimental research methods, diagnostic equipment, and synthesis of results while studying the aero-optics problem. Discusses some methods for mitigating the aerodynamic effects on the light propagation under flight conditions. Presents data about the passive, active, and hybrid effects on the flow in the boundary layers in order to reduce aberrations through improving the flow aerodynamics.</p<<p<The paper considers operation of adaptive optical systems under conditions of aero-optical distortions. Presents the study results concerning the reduction of the aero-optics effect on the characteristics of radiation in far field. Gives some research results regarding the effect on the efficiency of the adaptive system of a laser beam jitter and a time delay in the feedback signal transmission, which occur under application conditions. Provides data on adaptive correction of aero-optical wave fronts of radiation. Considers some application aspects in control systems of the on-board adaptive optics of adaptive filtration as a way to improve the efficiency of adaptive optical systems. The project in mind is to use obtained results, conclusions, and recommendations in development of technical specification for such systems of adaptive optics.</p< Ausführliche Beschreibung

Gespeichert in:

Autor*in:	Yu. I. Shanin [verfasserIn] A. V. Chernykh [verfasserIn]

Format:	E-Artikel
Sprache:	Russisch

Erschienen:	2017

Schlagwörter:	aero-optics adaptive optical system adaptive optics

Übergeordnetes Werk:	In: Nauka i Obrazovanie - MGTU im. N.È. Baumana, 2017, (2017), 7, Seite 136-157
Übergeordnetes Werk:	year:2017 ; number:7 ; pages:136-157

Links:	Link aufrufen Link aufrufen Link aufrufen Journal toc

DOI / URN:	10.7463/0717.0001257

Katalog-ID:	DOAJ007682743

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author	Yu. I. Shanin
spellingShingle	Yu. I. Shanin misc TK7885-7895 misc TA349-359 misc aero-optics misc adaptive optical system misc adaptive optics misc Computer engineering. Computer hardware misc Mechanics of engineering. Applied mechanics Problems of Aero-optics and Adaptive Optical Systems: Analytical Review
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topic_title	TK7885-7895 TA349-359 Problems of Aero-optics and Adaptive Optical Systems: Analytical Review aero-optics adaptive optical system adaptive optics
topic	misc TK7885-7895 misc TA349-359 misc aero-optics misc adaptive optical system misc adaptive optics misc Computer engineering. Computer hardware misc Mechanics of engineering. Applied mechanics
topic_unstemmed	misc TK7885-7895 misc TA349-359 misc aero-optics misc adaptive optical system misc adaptive optics misc Computer engineering. Computer hardware misc Mechanics of engineering. Applied mechanics
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title_sort	problems of aero-optics and adaptive optical systems: analytical review
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title_auth	Problems of Aero-optics and Adaptive Optical Systems: Analytical Review
abstract	<p<The analytical review gives the basic concepts of the aero-optics problem arising from the radiation propagation in the region of the boundary layers of a laser installation carrier aircraft. Estimates the radiation wave front distortions at its propagation in the near and far field. Presents main calculation approaches and methods to solve the gas-dynamic and optical problems in propagating laser radiation. Conducts a detailed analysis of the flows and their generating optical aberrations introduced by the aircraft turret (a projection platform of the on-board laser). Considers the effect of various factors (shock wave, difference in wall and flow temperatures) on the flow pattern and the optical aberrations. Provides research data on the aero-optics obtained in the flying laboratory directly while in flight. Briefly considers the experimental research methods, diagnostic equipment, and synthesis of results while studying the aero-optics problem. Discusses some methods for mitigating the aerodynamic effects on the light propagation under flight conditions. Presents data about the passive, active, and hybrid effects on the flow in the boundary layers in order to reduce aberrations through improving the flow aerodynamics.</p<<p<The paper considers operation of adaptive optical systems under conditions of aero-optical distortions. Presents the study results concerning the reduction of the aero-optics effect on the characteristics of radiation in far field. Gives some research results regarding the effect on the efficiency of the adaptive system of a laser beam jitter and a time delay in the feedback signal transmission, which occur under application conditions. Provides data on adaptive correction of aero-optical wave fronts of radiation. Considers some application aspects in control systems of the on-board adaptive optics of adaptive filtration as a way to improve the efficiency of adaptive optical systems. The project in mind is to use obtained results, conclusions, and recommendations in development of technical specification for such systems of adaptive optics.</p<
abstractGer	<p<The analytical review gives the basic concepts of the aero-optics problem arising from the radiation propagation in the region of the boundary layers of a laser installation carrier aircraft. Estimates the radiation wave front distortions at its propagation in the near and far field. Presents main calculation approaches and methods to solve the gas-dynamic and optical problems in propagating laser radiation. Conducts a detailed analysis of the flows and their generating optical aberrations introduced by the aircraft turret (a projection platform of the on-board laser). Considers the effect of various factors (shock wave, difference in wall and flow temperatures) on the flow pattern and the optical aberrations. Provides research data on the aero-optics obtained in the flying laboratory directly while in flight. Briefly considers the experimental research methods, diagnostic equipment, and synthesis of results while studying the aero-optics problem. Discusses some methods for mitigating the aerodynamic effects on the light propagation under flight conditions. Presents data about the passive, active, and hybrid effects on the flow in the boundary layers in order to reduce aberrations through improving the flow aerodynamics.</p<<p<The paper considers operation of adaptive optical systems under conditions of aero-optical distortions. Presents the study results concerning the reduction of the aero-optics effect on the characteristics of radiation in far field. Gives some research results regarding the effect on the efficiency of the adaptive system of a laser beam jitter and a time delay in the feedback signal transmission, which occur under application conditions. Provides data on adaptive correction of aero-optical wave fronts of radiation. Considers some application aspects in control systems of the on-board adaptive optics of adaptive filtration as a way to improve the efficiency of adaptive optical systems. The project in mind is to use obtained results, conclusions, and recommendations in development of technical specification for such systems of adaptive optics.</p<
abstract_unstemmed	<p<The analytical review gives the basic concepts of the aero-optics problem arising from the radiation propagation in the region of the boundary layers of a laser installation carrier aircraft. Estimates the radiation wave front distortions at its propagation in the near and far field. Presents main calculation approaches and methods to solve the gas-dynamic and optical problems in propagating laser radiation. Conducts a detailed analysis of the flows and their generating optical aberrations introduced by the aircraft turret (a projection platform of the on-board laser). Considers the effect of various factors (shock wave, difference in wall and flow temperatures) on the flow pattern and the optical aberrations. Provides research data on the aero-optics obtained in the flying laboratory directly while in flight. Briefly considers the experimental research methods, diagnostic equipment, and synthesis of results while studying the aero-optics problem. Discusses some methods for mitigating the aerodynamic effects on the light propagation under flight conditions. Presents data about the passive, active, and hybrid effects on the flow in the boundary layers in order to reduce aberrations through improving the flow aerodynamics.</p<<p<The paper considers operation of adaptive optical systems under conditions of aero-optical distortions. Presents the study results concerning the reduction of the aero-optics effect on the characteristics of radiation in far field. Gives some research results regarding the effect on the efficiency of the adaptive system of a laser beam jitter and a time delay in the feedback signal transmission, which occur under application conditions. Provides data on adaptive correction of aero-optical wave fronts of radiation. Considers some application aspects in control systems of the on-board adaptive optics of adaptive filtration as a way to improve the efficiency of adaptive optical systems. The project in mind is to use obtained results, conclusions, and recommendations in development of technical specification for such systems of adaptive optics.</p<
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