Add to ORKGThis paper evaluates the fundamental performance bounds, signal processing and technological complexity associated with the synchronization to radio and X-ray pulsars as well as its impact on the positioning accuracy of an autonomous spacecraft navigation system. Performance analysis of synchronization and location algorithms builds on Maximum Likelihood (ML) estimation which provides, asymptotically, unbiased minimum variance estimates with mean square error strictly approaching the Cramer-Rao Lower Bound (CRLB).Peer Reviewe
Català:L'objectiu d'aquest projecte ha estat verificar els resultats teòrics presentats en l'estudi ...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
This paper evaluates the fundamental performance bounds, signal processing and technological comple...
This paper evaluates the fundamental performance bounds, signal processing and technological complex...
This paper evaluates the fundamental perfor-mance bounds, signal processing and techno-logical compl...
Interstellar navigation poses significant challenges in all aspects of a spacecraft. One of them is ...
Interstellar navigation poses significant challenges in all aspects of a spacecraft. One of them is ...
Pulsar-based Navigation is an emerging technique to help deep space positioning. The idea, alike GNS...
Abstract—We discuss the possibility of an autonomous navi-gation system for spacecraft that is based...
X-ray pulsars are potential aids to spacecraft navigation due to the periodicity, uniqueness, and st...
Millisecond pulsars are extremely stable and rapidly rotating neutron stars that emit electromagneti...
Pulsar based navigation is a novel area of research, and might once offer the possibility to man of ...
Abstract — In this letter, we obtain the Maximum Likelihood Estimator of position in the framework o...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
Català:L'objectiu d'aquest projecte ha estat verificar els resultats teòrics presentats en l'estudi ...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
This paper evaluates the fundamental performance bounds, signal processing and technological comple...
This paper evaluates the fundamental performance bounds, signal processing and technological complex...
This paper evaluates the fundamental perfor-mance bounds, signal processing and techno-logical compl...
Interstellar navigation poses significant challenges in all aspects of a spacecraft. One of them is ...
Interstellar navigation poses significant challenges in all aspects of a spacecraft. One of them is ...
Pulsar-based Navigation is an emerging technique to help deep space positioning. The idea, alike GNS...
Abstract—We discuss the possibility of an autonomous navi-gation system for spacecraft that is based...
X-ray pulsars are potential aids to spacecraft navigation due to the periodicity, uniqueness, and st...
Millisecond pulsars are extremely stable and rapidly rotating neutron stars that emit electromagneti...
Pulsar based navigation is a novel area of research, and might once offer the possibility to man of ...
Abstract — In this letter, we obtain the Maximum Likelihood Estimator of position in the framework o...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
Català:L'objectiu d'aquest projecte ha estat verificar els resultats teòrics presentats en l'estudi ...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...
This paper investigates the use of pulsar-based navigation for deep-space CubeSats. A novel approach...