Add to ORKGWe have developed and tested a software algorithm that enables onboard autonomous motion estimation near small bodies using descent camera imagery and laser altimetry. Through simulation and testing, we have shown that visual feature tracking can decrease uncertainty in spacecraft motion to a level that makes landing on small, irregularly shaped, bodies feasible. Possible future work will include qualification of the algorithm as a flight experiment for the Deep Space 4/Champollion comet lander mission currently under study at the Jet Propulsion Laboratory
In this work, a tracker spacecraft equipped with a short-range vision system is tasked with visually...
A localization algorithm is developed to assist automated landing on unknown plan-etary surface. Cla...
In this paper, a suite of tools and algorithms devoted to optical navigation for autonomous landing ...
Space science and solar system exploration are driving NASA to develop an array of small body missio...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
Spacecraft flybys of small solar system bodies provide important science return in the form of image...
Autonomy is becoming increasingly important for the robotic exploration of unpredictable environment...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
The main challenge addressed in this work is to develop and validate an algorithm able to track and ...
Current methods for pose and shape estimation of small bodies, such as comets and asteroids, rely on...
A feature tracking algorithm is described, which is designed to support optical navigation of autono...
Optical imagery provides a powerful means of autonomous navigation for spacecraft in the vicinity of...
As humans explore further into the solar system, small bodies such as asteroids and comets serve as ...
Autonomous mapping and navigation around unknown small bodies is a challenging problem. In todays mi...
In this work, a tracker spacecraft equipped with a short-range vision system is tasked with visually...
A localization algorithm is developed to assist automated landing on unknown plan-etary surface. Cla...
In this paper, a suite of tools and algorithms devoted to optical navigation for autonomous landing ...
Space science and solar system exploration are driving NASA to develop an array of small body missio...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
Spacecraft landings on small bodies (asteroids and comets) can require target accuracies too stringe...
Spacecraft flybys of small solar system bodies provide important science return in the form of image...
Autonomy is becoming increasingly important for the robotic exploration of unpredictable environment...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
The main challenge addressed in this work is to develop and validate an algorithm able to track and ...
Current methods for pose and shape estimation of small bodies, such as comets and asteroids, rely on...
A feature tracking algorithm is described, which is designed to support optical navigation of autono...
Optical imagery provides a powerful means of autonomous navigation for spacecraft in the vicinity of...
As humans explore further into the solar system, small bodies such as asteroids and comets serve as ...
Autonomous mapping and navigation around unknown small bodies is a challenging problem. In todays mi...
In this work, a tracker spacecraft equipped with a short-range vision system is tasked with visually...
A localization algorithm is developed to assist automated landing on unknown plan-etary surface. Cla...
In this paper, a suite of tools and algorithms devoted to optical navigation for autonomous landing ...