-
Autonomy Technology Program
|
Benjamin
Smith |
|
|
Daniel S. Katz |
|
|
Colin Williams |
-
Automated mission activity planning & scheduling systems
-
Integration of planning systems with onboard science analysis
-
Operations coordination systems
-
Model-based robust execution systems
|
Steve
Chien |
-
Biologically and physically inspired
computing
-
Quantum Algorithms
-
Integrated Vehicle Health Management (IVHM)
-
Model-based Diagnosis Systems
-
Integrated Symbolic and Numeric Autonomous Anomaly Detection and Prognostics (BEAM)
-
Real-time Expert Systems (SHINE)
-
Advanced Image Processing Algorithms for Subsurface Imaging by Using Ground Penetrating Radar
|
Amir
Fijany |
-
Machine learning systems
-
Statistical pattern recognition
-
Data mining
-
Fast, automated feature identification
-
Onboard science analysis systems
-
Autonomous science discovery in large data sets
-
Computational systems biology
-
Scientific inference systems
-
Bioinformatic data analysis
|
Rebecca Castaño |
-
Intelligent data management
-
Scientific modeling & analysis
-
Sensor web data understanding
-
General earthquake models
|
Kenneth
Hurst |
-
Quantum computing
-
Quantum algorithms
-
Quantum circuit design
-
Quantum sensors
-
Quantum gyroscopes
-
Quantum gravity gradiometers
-
Quantum interferometry
-
Quantum enhanced gravity wave detection
-
Quantum information theory
|
Jonathan
Dowling |
-
Parallel applications technologies
-
Data-intensive and I/O-intensive parallel applications
-
Grid computing applications
-
High resolution visualization, including HDTV digital movies
-
Supercomputers as numerical observatories
-
Simulated/enhanced terrain generation and serving
-
Validating rover autonomous navigation
-
High fidelity distributed simulations
-
Terrain and volume rendering
-
Common component architecture
|
Daniel S. Katz |
-
Business Operations and Customer
Service
|
Christine
Corrigan |
