Creating U-Net + LSTM Hybrid Architecture for Image Series Analysis
This work focuses on creating U-Net + long short-term memory Hybrid analysis architectures for image series analysis on solar image data.
Roman Space Telecope WFI Pupil alignment verification
Using Machine Learning (ML) to determine the pupil alignment of the Wide Field Instrument of the Roman Space Telescope during the spacecraft testing in thermal vacuum conditions.…
A hybrid machine learning approach for calibration and regionalization of LSM soil and vegetation parameters
This work explores the combined use of machine learning and traditional model calibration methods to develop a high resolution (1 km) soil and vegetation parameter dataset for Nor…
Mapping anthropogenic water cycle impacts in a future climate: A global digital twin for scenario-driven exploration
This project develops an emergent constraint emulator for future changes in water storage estimates based on the available historical record of GRACE and GRACE-FO measurements.
Nominal Forecast Sub System for the NASA Coastal Zone Digital Twin
Development of ML based emulator for enabling what-now, what-next, and what-if analysis for flood and water quality indicators in the Chesapeake Bay, trained using Land Informatio…
AI assisted Image recognition for EEE parts kitting and auditing
Due to the limits in personnel capacity, warehouse inventory contract (TRAX), and the limits in the Goddard Material Management System (MMS), EEE parts kitting and auditing is lab…
Development of a next-generation snow and ice product (SNIP) for operational applications
This project aims to develop interpretable AI/ML models to improve global snow depth retrieval from AMSR2 brightness temperature observations.
Simultaneous emulation and downscaling of modeled soil state variables with machine learning
We propose a lightweight, computationally efficient machine learning (ML) model capable of emulating the LIS-based soil moisture and soil temperature and downscaling them from a n…
Hydrology Copilot
We are building a multi-agent AI copilot that lets users explore and apply the new 1-km, hourly North American Land Data Assimilation System (NLDAS) version 3 dataset through natu…
Developing high-resolution multidecadal satellite remote sensing-based snow lifecycle reanalysis products over the Northern Hemisphere
A deep learning model is being trained using a subset of meteorological forcings and remote sensing observations of snow cover to reconstruct seasonal snow water content globally.…
Distributed Spacecraft Autonomy
Distributed Spacecraft Autonomy (DSA) is a project developed by the National Aeronautics and Space Administration that enables distributed spacecraft systems through the developme…
GLOBE Program - Image processing
Processing photo images submitted to the GLOBE Program through the GLOBE Observer app. These photos relate to submissions of Clouds, Mosquito Habitat Mapper, Trees, and Land Cover…
ML-Driven Wide Field Instrument (WFI) Image Calibration
This machine learning-driven project aims to expedite the image calibration process for Roman Wide Field Instrument (WFI) data by developing an automated calibration system. Lever…
HEASARC Bibliography
Use an LLM to analyze existing publications and extract references to observations archived by the HEASARC
Bump in the Wire (BITW)
BITW is a software technology designed to detect anomalous commands and trends in telemetry beyond traditional detection methods such as command parsers and telemetry limit checke…
Point spread function (PSF) calibration using machine learning (ML) techniques.
The Habitable Worlds Observatory (HWO) aims to image and thoroughly characterize exoEarths and is the highest priority of NASA as recommended by the Astro2020 Decadal Survey. With…
Machine learning for low-order wavefront sensing
Use machine learning to increase the accuracy and range of low-order wavefront sensor.
IV&V Requirements Quality & Traceability Analysis
This project develops software to generate pre-computed, draft analysis results for text-based software requirements artifacts on NASA programs within the scope of Independent Ver…
IV&V Static Code & Implementation Analysis
This project develops software to generate pre-computed, draft analysis results for static code and code implementation artifacts on NASA programs within the scope of Independent…
IV&V Test Analysis
This project develops software to generate pre-computed, draft analysis results for text-based test artifacts on NASA programs within the scope of Independent Verification & Valid…
IV&V AI Assistant
This project delivers a NASA IV&V AI Assistant powered by LibreChat with Retrieval-Augmented Generation (RAG) to provide a secure, conversational interface for NASA IV&V engineers…
IV&V Process Accelerators through Generative AI Capabilities
This project is a collection of utility tools that generated by personnel and early adopters at the NASA IV&V Program who have explored and prototyped generative AI applications t…
Estimating Ocean Color Properties from TEMPO
Developing hourly ocean color retrievals across North America using geostationary TEMPO instrument
Development of a Next-Generation Ensemble Prediction System for Atmospheric Composition
The project's goal is to reduce the computational burden of atmospheric composition modeling at the GMAO, by building an AI emulator for the GEOS Composition Forecast model.