Year |
Citation |
Score |
2022 |
Licata RJ, Mehta PM. Uncertainty quantification techniques for data-driven space weather modeling: thermospheric density application. Scientific Reports. 12: 7256. PMID 35508465 DOI: 10.1038/s41598-022-11049-3 |
0.363 |
|
2020 |
Mehta PM, Linares R. Real-Time Thermospheric Density Estimation from Satellite Position Measurements Journal of Guidance Control and Dynamics. 43: 1656-1670. DOI: 10.2514/1.G004793 |
0.334 |
|
2020 |
Weimer DR, Mehta PM, Tobiska WK, Doornbos E, Mlynczak MG, Drob DP, Emmert JT. Improving Neutral Density Predictions Using Exospheric Temperatures Calculated on a Geodesic, Polyhedral Grid Space Weather. 18. DOI: 10.1029/2019Sw002355 |
0.313 |
|
2019 |
Eyiguler ECK, Shim JS, Kuznetsova MM, Kaymaz Z, Bowman BR, Codrescu MV, Solomon SC, Fuller‐Rowell TJ, Ridley AJ, Mehta PM, Sutton EK. Quantifying the Storm Time Thermospheric Neutral Density Variations Using Model and Observations Social Work. 17: 269-284. DOI: 10.1029/2018Sw002033 |
0.427 |
|
2018 |
Mehta PM, Linares R, Walker AC. Photometric Data from Nonresolved Objects for Improved Drag and Reentry Prediction Journal of Spacecraft and Rockets. 55: 959-970. DOI: 10.2514/1.A33825 |
0.395 |
|
2018 |
Mehta PM, Linares R. A New Transformative Framework for Data Assimilation and Calibration of Physical Ionosphere‐Thermosphere Models Social Work. 16: 1086-1100. DOI: 10.1029/2018Sw001875 |
0.446 |
|
2018 |
Mehta PM, Linares R, Sutton EK. A Quasi‐Physical Dynamic Reduced Order Model for Thermospheric Mass Density via Hermitian Space‐Dynamic Mode Decomposition Social Work. 16: 569-588. DOI: 10.1029/2018Sw001840 |
0.439 |
|
2017 |
Mehta PM, Kubicek M, Minisci E, Vasile M. Sensitivity analysis and probabilistic re-entry modeling for debris using high dimensional model representation based uncertainty treatment Advances in Space Research. 59: 193-211. DOI: 10.1016/J.Asr.2016.08.032 |
0.309 |
|
2017 |
Mehta PM, Linares R. A methodology for reduced order modeling and calibration of the upper atmosphere Social Work. 15: 1270-1287. DOI: 10.1002/2017Sw001642 |
0.441 |
|
2017 |
Mehta PM, Walker AC, Sutton EK, Godinez HC. New density estimates derived using accelerometers on board the CHAMP and GRACE satellites Social Work. 15: 558-576. DOI: 10.1002/2016Sw001562 |
0.466 |
|
2014 |
Walker A, Mehta P, Koller J. Drag coefficient model using the Cercignani-Lampis-Lord gas-surface interaction model Journal of Spacecraft and Rockets. 51: 1544-1563. DOI: 10.2514/1.A32677 |
0.518 |
|
2014 |
Walker A, Mehta P, Koller J. Different implementations of diffuse reflection with incomplete accommodation for drag coefficient modeling Journal of Spacecraft and Rockets. 51: 1522-1532. DOI: 10.2514/1.A32668 |
0.493 |
|
2014 |
Mehta PM, Walker A, McLaughlin CA, Koller J. Comparing physical drag coefficients computed using different gas-surface interaction models Journal of Spacecraft and Rockets. 51: 873-883. DOI: 10.2514/1.A32566 |
0.467 |
|
2014 |
Mehta PM, Walker A, Lawrence E, Linares R, Higdon D, Koller J. Modeling satellite drag coefficients with response surfaces Advances in the Astronautical Sciences. 150: 2609-2622. DOI: 10.1016/J.Asr.2014.06.033 |
0.519 |
|
2014 |
Walker AC, Shoemaker M, Mehta PM, Koller J. Gas-surface interactions for satellites orbiting in the lower exosphere Advances in the Astronautical Sciences. 152: 3281-3297. |
0.335 |
|
2013 |
Mehta PM, McLaughlin CA, Sutton EK. Drag coefficient modeling for grace using Direct Simulation Monte Carlo Advances in Space Research. 52: 2035-2051. DOI: 10.1016/J.Asr.2013.08.033 |
0.48 |
|
2012 |
Mehta PM, McLaughlin CA. Density and ballistic coefficient estimation revisited Advances in the Astronautical Sciences. 142: 3247-3264. |
0.32 |
|
2012 |
Mehta PM, McLaughlin CA, Lechtenberg TF, Mance S. Energy-accommodation coefficient and drag coefficient modeling for stella and starlette Proceedings of the International Astronautical Congress, Iac. 7: 5791-5801. |
0.536 |
|
2011 |
McLaughlin CA, Lechtenberg TF, Mance SR, Locke T, Mehta PM. Fitted drag coefficients as a source of density information Advances in the Astronautical Sciences. 140: 1057-1074. |
0.542 |
|
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