Add to ORKGSpacecraft flybys of small solar system bodies provide important science return in the form of images of the target body taken around closest approach. In order to maximize the number of images taken of the target, an autonomous closed-loop tracking system has been developed to maintain lock on the target during the flyby. The system uses images to estimate the spacecrafts target-relative position and attitude, which is then used to point the camera. The system has been successfully used twice: the Deep Space 1 flyby of comet Borrelly and the Stardust flyby of asteroid Annefrank. This paper describes in detail the tracking algorithms and flight results
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
The joint European Space Agency and Japan Aerospace Exploration Agency mission Comet Interceptor see...
Future NASA missions include in-situ scientific explorations of small interplanetary objects like co...
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...
We have developed and tested a software algorithm that enables onboard autonomous motion estimation ...
Primitive bodies (asteroids and comets), which have remained relatively unaltered since their format...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
Autonomous navigation (AutoNav) for deep space missions is a unique capability that was developed at...
Hartley 2 as follow-on to the successful 2005 Deep Impact prime mission. EPOXI, an extended mission ...
The attitude determination and control system determines and controls the orientation of the spacecr...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Since the first artificial satellite, Sputnik 1, was launched to Earth Orbit in 1957 the amount of n...
The current growing interest into on-orbit proximity operations motivates the effort in designing mi...
An autonomous system for the orbit determination of space debris has been studied for a new payload...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
The joint European Space Agency and Japan Aerospace Exploration Agency mission Comet Interceptor see...
Future NASA missions include in-situ scientific explorations of small interplanetary objects like co...
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...
We have developed and tested a software algorithm that enables onboard autonomous motion estimation ...
Primitive bodies (asteroids and comets), which have remained relatively unaltered since their format...
In this paper, a vision system for autonomous guidance of space probes during close approach to cele...
Autonomous navigation (AutoNav) for deep space missions is a unique capability that was developed at...
Hartley 2 as follow-on to the successful 2005 Deep Impact prime mission. EPOXI, an extended mission ...
The attitude determination and control system determines and controls the orientation of the spacecr...
This paper presents an on-board, centralized autonomous navigation algorithm able to reconstruct the...
Since the first artificial satellite, Sputnik 1, was launched to Earth Orbit in 1957 the amount of n...
The current growing interest into on-orbit proximity operations motivates the effort in designing mi...
An autonomous system for the orbit determination of space debris has been studied for a new payload...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
The joint European Space Agency and Japan Aerospace Exploration Agency mission Comet Interceptor see...
Future NASA missions include in-situ scientific explorations of small interplanetary objects like co...