Artigos com autorizações de acesso público - Mikhail VorontsovSaiba mais
Não disponíveis em nenhum local: 6
Electro-optics sensor with embedded edge AI-computing for atmospheric turbulence refractive index structure parameter (C_n^ 2) sensing at high temporal resolution
DLN Hettiarachchi, E Polnau, MA Vorontsov
Free-Space Laser Communications XXXIV 11993, 288-291, 2022
Autorizações: US Department of Defense
High temporal resolution sensing of atmospheric turbulence refractive index structure parameter (Cn^ 2) based on embedded edge AI-processing of scintillation images
DLN Hettiarachchi, E Polnau, MA Vorontsov
Real-Time Image Processing and Deep Learning 2022 12102, 91-96, 2022
Autorizações: US Department of Defense
Experimental analysis of joint impact of atmospheric turbulence and refractivity on laser beam propagation over 149 km path
M Vorontsov, E Polnau, V Kulikov, T Weyrauch
Propagation Through and Characterization of Atmospheric and Oceanic …, 2020
Autorizações: US Department of Defense
Performance analysis of an adaptive optics system with scintillation-resistant phase-contrast wavefront sensor
B Bordbar, NH Farwell, MA Vorontsov
Computational Optical Sensing and Imaging, CTu4A. 6, 2019
Autorizações: US Department of Defense
Atmospheric turbulence characterization using a neuromorphic camera
E Polnau, MA Vorontsov
Image Sensing Technologies: Materials, Devices, Systems, and Applications IX …, 2022
Autorizações: US Department of Defense
Optimization of Turbulence Phase Screen Distribution for Wave-Optics Analysis of Laser Beam Propagation over Extended-Range Atmospheric Paths
AM Vorontsov, SL Lachinova, MA Vorontsov
Adaptive Optics: Analysis, Methods & Systems, JW5B. 5, 2020
Autorizações: US Department of Defense
Disponíveis em algum local: 11
Atmospheric turbulence study with deep machine learning of intensity scintillation patterns
AM Vorontsov, MA Vorontsov, GA Filimonov, E Polnau
Applied Sciences 10 (22), 8136, 2020
Autorizações: US Department of Defense
Analysis of the joint impact of atmospheric turbulence and refractivity on laser beam propagation
VA Kulikov, MA Vorontsov
Optics Express 25 (23), 28524-28535, 2017
Autorizações: US Department of Defense
Comparative analysis of numerical simulation techniques for incoherent imaging of extended objects through atmospheric turbulence
SL Lachinova, MA Vorontsov, GA Filimonov, DA LeMaster, ME Trippel
Optical Engineering 56 (7), 071509-071509, 2017
Autorizações: US Department of Defense
Experimental demonstration of target-in-the-loop remote sensing of laser beam and atmospheric turbulence characteristics
E Polnau, MA Vorontsov, R Gudimetla
Journal of Optics 21 (9), 095602, 2019
Autorizações: US Department of Defense
Impact of atmospheric turbulence and refractivity on the modulation transfer function of incoherent imaging system
Z Yang, MA Vorontsov
Journal of Optics 19 (12), 125601, 2017
Autorizações: US Department of Defense
Complex field sensing in strong scintillations with multi-aperture phase contrast techniques
B Bordbar, MA Vorontsov
Journal of Optics 22 (10), 10LT01, 2020
Autorizações: US Department of Defense
Electro-optical sensors for atmospheric turbulence strength characterization with embedded edge ai processing of scintillation patterns
E Polnau, DLN Hettiarachchi, MA Vorontsov
Photonics 9 (11), 789, 2022
Autorizações: US Department of Defense
Atmospheric turbulence characterization using a neuromorphic camera-based imaging sensor
E Polnau, MA Vorontsov
Journal of Optics 23 (12), 125608, 2021
Autorizações: US Department of Defense
Characterization of localized atmospheric turbulence layer using laser light backscattered off moving target
VA Kulikov, SL Lachinova, MA Vorontsov, VSR Gudimetla
Applied Sciences 10 (19), 6887, 2020
Autorizações: US Department of Defense
Atmospheric Turbulence Outer Scale Estimation Using Laser Light Backscattered off Moving Target
VA Kulikov, SL Lachinova, MA Vorontsov
Propagation Through and Characterization of Atmospheric and Oceanic …, 2019
Autorizações: US Department of Defense
Reduced Complexity Heat Transfer Models for Analysis of Powder Bed Multi-Beam Laser Fusion Processes.
D Moser, MJ Martinez, N Farwell, M Vorontsov, V Kulikov, G Lewandowski
Sandia National Lab.(SNL-NM), Albuquerque, NM (United States), 2019
Autorizações: US Department of Energy
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