Add to ORKGThis paper presents a robust and efficient approach for relative navigation and attitude estimation of spacecraft flying in formation. This approach uses measurements from a new optical sensor that provides a line of sight vector from the master spacecraft to the secondary satellite. The overall system provides a novel, reliable, and autonomous relative navigation and attitude determination system, employing relatively simple electronic circuits with modest digital signal processing requirements and is fully independent of any external systems. Experimental calibration results are presented, which are used to achieve accurate line of sight measurements. State estimation for formation flying is achieved through an optimal observer design. Al...
A fundamental need of spacecraft autonomous formation flying is the determination of the relative mo...
This study presents a precise relative navigational method for satellites flying in formation using ...
Navigation algorithms and the corresponding observability analysis for formation flying missions are...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
In this paper a novel approach is developed for relative navigation and attitude esti-mation of spac...
Abstract — Relative attitude formation control systems are developed for multiple spacecraft, based ...
In this paper a novel approach is developed for relative state estimation of spacecraft flying in fo...
Abstract — Relative attitude formation control systems are developed for multiple spacecraft, based ...
Vision is a key technology for the relative navigation of formation flying satellites especially wh...
Vision is a key technology for the relative navigation of formation flying satellites especially wh...
Formation flying missions involve relative navigation, or the determination of the relative kinemati...
Spacecraft formation flying is commonly considered a key technology for advanced space missions. Com...
This paper presents a new approach to spacecraft relative attitude estimation and navigation based o...
This paper considers the problem of formation control of three spacecraft consisting of one leader a...
Satellite formation missions require the precise determination of both the position and attitude of ...
A fundamental need of spacecraft autonomous formation flying is the determination of the relative mo...
This study presents a precise relative navigational method for satellites flying in formation using ...
Navigation algorithms and the corresponding observability analysis for formation flying missions are...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
In this paper a novel approach is developed for relative navigation and attitude esti-mation of spac...
Abstract — Relative attitude formation control systems are developed for multiple spacecraft, based ...
In this paper a novel approach is developed for relative state estimation of spacecraft flying in fo...
Abstract — Relative attitude formation control systems are developed for multiple spacecraft, based ...
Vision is a key technology for the relative navigation of formation flying satellites especially wh...
Vision is a key technology for the relative navigation of formation flying satellites especially wh...
Formation flying missions involve relative navigation, or the determination of the relative kinemati...
Spacecraft formation flying is commonly considered a key technology for advanced space missions. Com...
This paper presents a new approach to spacecraft relative attitude estimation and navigation based o...
This paper considers the problem of formation control of three spacecraft consisting of one leader a...
Satellite formation missions require the precise determination of both the position and attitude of ...
A fundamental need of spacecraft autonomous formation flying is the determination of the relative mo...
This study presents a precise relative navigational method for satellites flying in formation using ...
Navigation algorithms and the corresponding observability analysis for formation flying missions are...