Dev Niyogi

According to our database1, Dev Niyogi authored at least 16 papers between 2009 and 2022.

Collaborative distances:
  • Dijkstra number2 of four.
  • Erdős number3 of four.



In proceedings 
PhD thesis 


Online presence:



Deep Learning-Based 500 m Spatio-Temporally Continuous Air Temperature Generation by Fusing Multi-Source Data.
Remote. Sens., 2022

Improving the Forecasting of Winter Wheat Yields in Northern China with Machine Learning-Dynamical Hybrid Subseasonal-to-Seasonal Ensemble Prediction.
Remote. Sens., 2022

Urban precipitation downscaling using deep learning: a smart city application over Austin, Texas, USA.
CoRR, 2022

Short-range forecasts of global precipitation using deep learning-augmented numerical weather prediction.
CoRR, 2022

GLOBUS: GLObal Building heights for Urban Studies.
CoRR, 2022

Deep learning for improved global precipitation in numerical weather prediction systems.
CoRR, 2021

Impact of INSAT-3D/3DR Radiance Data Assimilation in Predicting Tropical Cyclone Titli Over the Bay of Bengal.
IEEE Trans. Geosci. Remote. Sens., 2020

Spatial Configuration and Extent Explains the Urban Heat Mitigation Potential due to Green Spaces: Analysis over Addis Ababa, Ethiopia.
Remote. Sens., 2020

Mapping Paddy Rice Fields by Combining Multi-Temporal Vegetation Index and Synthetic Aperture Radar Remote Sensing Data Using Google Earth Engine Machine Learning Platform.
Remote. Sens., 2020

Design and Deployment of Photo2Building: A Cloud-based Procedural Modeling Tool as a Service.
Proceedings of the PEARC '20: Practice and Experience in Advanced Research Computing, 2020

Application of A Simple Landsat-MODIS Fusion Model to Estimate Evapotranspiration over A Heterogeneous Sparse Vegetation Region.
Remote. Sens., 2019

Fast Weather Simulation for Inverse Procedural Design of 3D Urban Models.
ACM Trans. Graph., 2017

Gauging the Severity of the 2012 Midwestern U.S. Drought for Agriculture.
Remote. Sens., 2017

Land-Air Interactions over Urban-Rural Transects Using Satellite Observations: Analysis over Delhi, India from 1991-2016.
Remote. Sens., 2017

Impact of Satellite Radiance Data on Simulations of Bay of Bengal Tropical Cyclones Using the WRF-3DVAR Modeling System.
IEEE Trans. Geosci. Remote. Sens., 2016

The Kamal Ewida Earth Observatory: A NATO Supported Real-time Remote Sensing Receiving Station being Established in Egypt with HPC-enabled Near-real-time Data Products for Mitigation of Environmental & Public Health Disasters.
Proceedings of the IEEE International Geoscience & Remote Sensing Symposium, 2009