O. Kuchinskaia
Physics and Astronomy · Indiana University
Publications
625
Citations
13,656
Est. group size
—
Recurring co-author estimate
Active years
8
Publishing since 2019
O. Kuchinskaia studies the atmosphere using remote-sensing tools, especially polarization lidar (laser-based radar) to observe high-altitude clouds and contrails. Much of the recent work applies machine learning and reanalysis datasets (such as ERA5) to reconstruct and interpret cloud parameters. Some work also touches on particle detector instrumentation for physics experiments.
Publication activity has grown from around 2022 onward, with a notable rise in 2024, reflecting an active recent output.
Generated by claude-opus-4-8 from public bibliographic data · Jul 11, 2026
- Prediction of high-level cloud parameters based on polarization lidar observations using machine learning tools
Russian Physics Journal · 2025
- Predictive capability of machine learning algorithms for reconstructing high-level cloud parameters based on lidar observations
Russian Physics Journal · 2025
- Effect of Scattered Solar Radiation on the Informativeness of Polarization Lidar Studies of High-Level Clouds
Journal of Environmental & Earth Sciences · 2025
- Artificial Neural Networks for Determining the Empirical Relationship between Meteorological Parameters and High-Level Cloud Characteristics
Applied Sciences · 2024
- Comparison of the Contrail Drift Parameters Calculated Based on the Radiosonde Observation and ERA5 Reanalysis Data
Atmosphere · 2024
- Effect of Scattered Solar Radiation on the Informativeness of Polarization Lidar Studies of High-Level Clouds
Preprints.org · 2024
- Verification of ERA5 reanalysis data for interpretation of radiosonde measurements in 2009–2023 in western Siberia
Russian Physics Journal · 2024
- Certification of VMM3a integrated circuits for spin physics detector at the NICA collider
Russian Physics Journal · 2024
- ERA5 Reanalysis for the Data Interpretation on Polarization Laser Sensing of High-Level Clouds
Remote Sensing · 2022
- Verification of ERA5 reanalysis data for the interpretation of lidar investigation of high-level clouds
28th International Symposium on Atmospheric and Ocean Optics: Atmospheric Physics · 2022
- Evaluation of the Applicability of the ERA5 Reanalysis for Interpretation of the Polarization Laser Sensing Data of the High-Level Clouds in Western Siberia
Preprints.org · 2022
- Russian Physics Journal×4
- Preprints.org×2
- Remote Sensing×1
- Applied Sciences×1
- Atmosphere×1
This profile was generated automatically from public scholarly data (OpenAlex). Group size and activity levels are estimates derived from co-authorship patterns.
Last updated Jul 11, 2026.
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