Add to ORKGThe thesis deals with the relative navigation between two small formation flying spacecraft. The inter-satellite distance is measured using locally generated radiofrequency ranging signals. Design considerations for the spacecraft and the relative navigation system are discussed as well as the estimation of the relative state. The influence of the number of antennas on each spacecraft, the antenna baseline, the ranging accuracy, the inter-satellite distance, and the relative motion on the relative navigation results and the observability of the system is extensively studied.Space EngineeringAerospace Engineerin
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
Spacecraft formation flying is commonly considered a key technology for advanced space missions. Com...
There the new computing relations for the statistic and energy characteristics of RNS signal for the...
The thesis deals with the relative navigation between two small formation flying spacecraft. The int...
Spreading of spacecraft formations and constellations made up by affordable platforms as cubesats po...
This paper presents an investigation into the relative state estimation and observability for two fo...
This paper presents a robust and efficient approach for relative navigation and attitude estimation ...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
This paper deals with the autonomous relative navigation of two satellites flying in close proximity...
Goddard Space Flight Center is currently developing advanced spacecraft systems to provide autonomou...
advanced spacecraft systems to provide autonomous navigation and control of formation flyers. This p...
Formation flying missions involve relative navigation, or the determination of the relative kinemati...
The article presents the results of an investigation of the accuracy of estimating errors in the det...
Formation flying missions require autonomous relative navigation, with an accuracy depending both on...
Goddard Space Flight Center is currently developing advanced spacecraft systems to provide autonomou...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
Spacecraft formation flying is commonly considered a key technology for advanced space missions. Com...
There the new computing relations for the statistic and energy characteristics of RNS signal for the...
The thesis deals with the relative navigation between two small formation flying spacecraft. The int...
Spreading of spacecraft formations and constellations made up by affordable platforms as cubesats po...
This paper presents an investigation into the relative state estimation and observability for two fo...
This paper presents a robust and efficient approach for relative navigation and attitude estimation ...
The objective of this paper is to develop a robust and efficient approach for relative navigation an...
This paper deals with the autonomous relative navigation of two satellites flying in close proximity...
Goddard Space Flight Center is currently developing advanced spacecraft systems to provide autonomou...
advanced spacecraft systems to provide autonomous navigation and control of formation flyers. This p...
Formation flying missions involve relative navigation, or the determination of the relative kinemati...
The article presents the results of an investigation of the accuracy of estimating errors in the det...
Formation flying missions require autonomous relative navigation, with an accuracy depending both on...
Goddard Space Flight Center is currently developing advanced spacecraft systems to provide autonomou...
The paper presents an autonomous navigation method for a spacecraft formation flying in the proximit...
Spacecraft formation flying is commonly considered a key technology for advanced space missions. Com...
There the new computing relations for the statistic and energy characteristics of RNS signal for the...