|Validation of SMAP surface soil moisture products with core validation sites|
A Colliander, TJ Jackson, R Bindlish, S Chan, N Das, SB Kim, MH Cosh, ...
Remote sensing of environment 191, 215-231, 2017
|Modelling the passive microwave signature from land surfaces: A review of recent results and application to the L-band SMOS & SMAP soil moisture retrieval algorithms|
JP Wigneron, TJ Jackson, P O'neill, G De Lannoy, P de Rosnay, ...
Remote Sensing of Environment 192, 238-262, 2017
|Assimilation of remotely sensed soil moisture and vegetation with a crop simulation model for maize yield prediction|
AVM Ines, NN Das, JW Hansen, EG Njoku
Remote Sensing of Environment 138, 149-164, 2013
|An algorithm for merging SMAP radiometer and radar data for high-resolution soil-moisture retrieval|
NN Das, D Entekhabi, EG Njoku
IEEE Transactions on Geoscience and Remote Sensing 49 (5), 1504-1512, 2010
|SMAP handbook–soil moisture active passive: Mapping soil moisture and freeze/thaw from space|
D Entekhabi, S Yueh, PE O’Neill, KH Kellogg, A Allen, R Bindlish, ...
JPL Publication; Pasadena, CA., 2014
|Tests of the SMAP combined radar and radiometer algorithm using airborne field campaign observations and simulated data|
NN Das, D Entekhabi, EG Njoku, JJC Shi, JT Johnson, A Colliander
IEEE Transactions on Geoscience and Remote Sensing 52 (4), 2018-2028, 2013
|L-band vegetation optical depth and effective scattering albedo estimation from SMAP|
AG Konings, M Piles, N Das, D Entekhabi
Remote Sensing of Environment 198, 460-470, 2017
|The SMAP and Copernicus Sentinel 1A/B microwave active-passive high resolution surface soil moisture product|
NN Das, D Entekhabi, RS Dunbar, MJ Chaubell, A Colliander, S Yueh, ...
Remote Sensing of Environment 233, 111380, 2019
|Root zone soil moisture assessment using remote sensing and vadose zone modeling|
NN Das, BP Mohanty
Vadose Zone Journal 5 (1), 296-307, 2006
|Joint Sentinel‐1 and SMAP data assimilation to improve soil moisture estimates|
H Lievens, RH Reichle, Q Liu, GJM De Lannoy, RS Dunbar, SB Kim, ...
Geophysical research letters 44 (12), 6145-6153, 2017
|Anatomy of a local-scale drought: Application of assimilated remote sensing products, crop model, and statistical methods to an agricultural drought study|
AK Mishra, AVM Ines, NN Das, CP Khedun, VP Singh, B Sivakumar, ...
Journal of Hydrology 526, 15-29, 2015
|Modeling and assimilation of root zone soil moisture using remote sensing observations in Walnut Gulch Watershed during SMEX04|
NN Das, BP Mohanty, MH Cosh, TJ Jackson
Remote Sensing of Environment 112 (2), 415-429, 2008
|Temporal dynamics of PSR-based soil moisture across spatial scales in an agricultural landscape during SMEX02: A wavelet approach|
NN Das, BP Mohanty
Remote Sensing of Environment 112 (2), 522-534, 2008
|The SMAP mission combined active-passive soil moisture product at 9 km and 3 km spatial resolutions|
NN Das, D Entekhabi, RS Dunbar, A Colliander, F Chen, W Crow, ...
Remote sensing of environment 211, 204-217, 2018
|Satellite-based precipitation estimation and its application for streamflow prediction over mountainous western US basins|
A Behrangi, K Andreadis, JB Fisher, FJ Turk, S Granger, T Painter, N Das
Journal of Applied Meteorology and Climatology 53 (12), 2823-2842, 2014
|Long term analysis of PALS soil moisture campaign measurements for global soil moisture algorithm development|
A Colliander, S Chan, S Kim, N Das, S Yueh, M Cosh, R Bindlish, ...
Remote Sensing of Environment 121, 309-322, 2012
|Evaluation of the SMAP brightness temperature downscaling algorithm using active–passive microwave observations|
X Wu, JP Walker, NN Das, R Panciera, C Rüdiger
Remote sensing of environment 155, 210-221, 2014
|Reintroducing radiometric surface temperature into the P enman‐M onteith formulation|
K Mallick, E Boegh, I Trebs, JG Alfieri, WP Kustas, JH Prueger, D Niyogi, ...
Water Resources Research 51 (8), 6214-6243, 2015
|Comprehensive analysis of alternative downscaled soil moisture products|
S Sabaghy, JP Walker, LJ Renzullo, R Akbar, S Chan, J Chaubell, N Das, ...
Remote Sensing of Environment 239, 111586, 2020
|Sensitivity of Aquarius active and passive measurements temporal covariability to land surface characteristics|
M Piles, KA McColl, D Entekhabi, N Das, M Pablos
IEEE Transactions on Geoscience and Remote Sensing 53 (8), 4700-4711, 2015