In-flight Operation of the Dawn Ion Propulsion System Through Year One of Cruise to Ceres
Inflight Performance of Cassini Reaction Wheel Bearing Drag in 1997-2013
In-flight propulsion system characterization for both Mars Exploration Rover Spacecraft
In-flight propulsion system characterization for both Mars Exploration Rover spacecraft
Influence of Surface Backscattering Statistics on the Spaceborne Radar Measurements of Rainfall
Infusing Stretch Goal Requirements into the Constellation Program
Initial Cassini propulsion system in-flight characterization
Initial Cassini propulsion system in-flight characterization
Integrated Human-Robotic Missions to the Moon and Mars: Mission Operations Design Implications
Integration of Low-Fidelity MDO and CFD-Based Redesign of Low-Boom Supersonic Transports
Internal calibration of SRTM C-band radar system
Internation Collaboration on the ISAS Muses C Astreroid Sample Return Mission
Interstellar Probe Mission/System Concept
Ion Propulsion: An Enabling Technology for the Dawn Mission
Ion thrusters and LFAs for outer planet exploration
Issues for Radiation Assurance Validation at Jupiter's Moon, Europa
JPL Mission Design Software: Current Efforts to Support Low-Cost Missions
JPL's Multi-Mission Operations Strategy for the Next Decade
JPL's Multi-Mission Operations Strategy for the Next Decade
Key and Driving Requirements for the Juno Payload of Instruments
Landsat 9 Micrometeoroid and Orbital Debris (MMOD) Mission Success Approach
Launch Period Development for the Juno Mission to Jupiter
Launch vehicle accident assessment for Mars Exploration Rover missions
Lessons learned from five years of multi-mission operations
Long duration space missions through use of in- flight maintenance.
Long range planning for tracking and communications for manned planetary mission.
Low Thrust Cis-Lunar Transfers Using a 40 kW-Class Solar Electric Propulsion Spacecraft
Low-thrust mission trade studies with parallel, evolutionary computing
Lunar sample return via the InterPlanetary Superhighway
Managing GRAIL: Launching on Cost, on Schedule, and on Spec
Manned system design for lunar surface roving vehicles.
MAN-TO-THE-MOON AND RETURN MISSION UTILIZING LUNARSURFACE RENDEZVOUS
Mars Exploration Rover landing site ellipse update
Mars Exploration Rover Surface Mission: Thermal Performance for More Than an Entire Martian Year
Mars mission science operations facilities design
Mars Opposition Piloted Nuclear Electric Propulsion (NEP)-Chem Vehicle
Mars Pathfinder Mission Internet-Based Operations Using WITS
Mars Pathfinder's Lessons Learned: From the Mars Pathfinder Manager's Perspective: The Future Road
Mars Science Laboratory Launch Pad Thermal Control
Mars synthetic terrain generation and rover mission simulation using supercomputers