Add to ORKGThe Precision Landing and Hazard Avoidance (PL&HA) domain addresses the development, integration, testing, and spaceflight infusion of sensing, processing, and GN&C (Guidance, Navigation and Control) functions critical to the success and safety of future human and robotic exploration missions. PL&HA sensors also have applications to other mission events, such as rendezvous and docking
COBALT is a terrestrial test platform for development and maturation of GN&C (Guidance, Navigation a...
Lidar technology will play an important role in enabling highly ambitious missions being envisioned ...
The Hazard Detection System (HDS) is a component of the ALHAT (Autonomous Landing and Hazard Avoidan...
Until recently, robotic exploration missions to the Moon, Mars, and other solar system bodies relied...
Guidance, Navigation and Control (GN&C) technologies for precise and safe landing are essential for ...
The SPLICE project is developing, maturing, demonstrating, and infusing precision landing and hazard...
The Autonomous Landing Hazard Avoidance Technology (ALHAT) Project is chartered to develop and matur...
The ALHAT project was chartered by NASA HQ in 2006 to develop and mature to TRL 6 an autonomous luna...
The SPLICE project is continuing NASAs efforts to develop precision landing GN&C technologies for fu...
This presentation shows NASA's progress in developing precision landing and hazard avoidance technol...
A suite of prototype sensors, software, and avionics developed within the NASA Autonomous precision ...
Missions to solar systems bodies must meet increasingly ambitious objectives requiring highly reliab...
A coherent Navigation Doppler Lidar (NDL) sensor has been developed under the Autonomous precision L...
As NASA plans to send humans back to the Moon and develop a lunar outpost, technologies must be deve...
The Autonomous Landing and Hazard Avoidance Technology (ALHAT) Project is developing a system for sa...
COBALT is a terrestrial test platform for development and maturation of GN&C (Guidance, Navigation a...
Lidar technology will play an important role in enabling highly ambitious missions being envisioned ...
The Hazard Detection System (HDS) is a component of the ALHAT (Autonomous Landing and Hazard Avoidan...
Until recently, robotic exploration missions to the Moon, Mars, and other solar system bodies relied...
Guidance, Navigation and Control (GN&C) technologies for precise and safe landing are essential for ...
The SPLICE project is developing, maturing, demonstrating, and infusing precision landing and hazard...
The Autonomous Landing Hazard Avoidance Technology (ALHAT) Project is chartered to develop and matur...
The ALHAT project was chartered by NASA HQ in 2006 to develop and mature to TRL 6 an autonomous luna...
The SPLICE project is continuing NASAs efforts to develop precision landing GN&C technologies for fu...
This presentation shows NASA's progress in developing precision landing and hazard avoidance technol...
A suite of prototype sensors, software, and avionics developed within the NASA Autonomous precision ...
Missions to solar systems bodies must meet increasingly ambitious objectives requiring highly reliab...
A coherent Navigation Doppler Lidar (NDL) sensor has been developed under the Autonomous precision L...
As NASA plans to send humans back to the Moon and develop a lunar outpost, technologies must be deve...
The Autonomous Landing and Hazard Avoidance Technology (ALHAT) Project is developing a system for sa...
COBALT is a terrestrial test platform for development and maturation of GN&C (Guidance, Navigation a...
Lidar technology will play an important role in enabling highly ambitious missions being envisioned ...
The Hazard Detection System (HDS) is a component of the ALHAT (Autonomous Landing and Hazard Avoidan...