Search engine for discovering works of Art, research articles, and books related to Art and Culture
Javascript must be enabled to continue!
Demand and key technology for a LEO constellation as augmentation of satellite navigation systems
View through CrossRef
AbstractA Low Earth Orbit (LEO) constellation augmenting satellite navigation is important in the future development of Global Navigation Satellite System (GNSS). GNSS augmented by LEO constellations can improve not only the accuracy of Positioning, Navigation, and Timing (PNT), but also the consistency and reliability of secure PNT system. This paper mainly analyzes the diverse demands of different PNT users for LEO augmented GNSS, including the precision demand in real-time, the availability demand in special areas, the navigation signal enhancement demand in complex electromagnetic environments, and the integrity demand with high security. Correspondingly, the possible contributions of LEO constellations to PNT performance are analyzed from multiple aspects. A particular attention is paid to the special PNT user requirements that cannot be fulfilled with existing GNSS, such as the PNT service demand in the polar regions and the onboard GNSS orbit determination demand of some LEO satellites. The key technologies to be considered in the constellation design, function realization, and payload development of the LEO-augmented navigation system are summarized.
Springer Science and Business Media LLC
Title: Demand and key technology for a LEO constellation as augmentation of satellite navigation systems
Description:
AbstractA Low Earth Orbit (LEO) constellation augmenting satellite navigation is important in the future development of Global Navigation Satellite System (GNSS).
GNSS augmented by LEO constellations can improve not only the accuracy of Positioning, Navigation, and Timing (PNT), but also the consistency and reliability of secure PNT system.
This paper mainly analyzes the diverse demands of different PNT users for LEO augmented GNSS, including the precision demand in real-time, the availability demand in special areas, the navigation signal enhancement demand in complex electromagnetic environments, and the integrity demand with high security.
Correspondingly, the possible contributions of LEO constellations to PNT performance are analyzed from multiple aspects.
A particular attention is paid to the special PNT user requirements that cannot be fulfilled with existing GNSS, such as the PNT service demand in the polar regions and the onboard GNSS orbit determination demand of some LEO satellites.
The key technologies to be considered in the constellation design, function realization, and payload development of the LEO-augmented navigation system are summarized.
Related Results
Precise point positioning with LEO augmentation: results from two experimental satellites
Precise point positioning with LEO augmentation: results from two experimental satellites
Using LEO satellites for positioning and navigation has been a research hotspot in the GNSS community in recent years. As the LEO satellites are much closer to earth and move much ...
BeiDou Augmented Navigation from Low Earth Orbit Satellites
BeiDou Augmented Navigation from Low Earth Orbit Satellites
Currently, the Global Navigation Satellite System (GNSS) mainly uses the satellites in Medium Earth Orbit (MEO) to provide position, navigation, and timing (PNT) service. The weak ...
Navace: A New Approach To Precision, Work Area Ocean Navigation
Navace: A New Approach To Precision, Work Area Ocean Navigation
ABSTRACT
NAVACE is a revolutionary navigation system under development by Electrospace Systems, Inc. NAVACE utilizes a concept of ocean bottom and sub-bottom feat...
Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies
Advances in BeiDou Navigation Satellite System (BDS) and satellite navigation augmentation technologies
AbstractSeveral noteworthy breakthroughs have been made with the BeiDou Navigation Satellite System (BDS) and other global navigation satellite systems as well as the associated au...
LEO constellation optimization for BDS precise orbit determination in LEO enhanced BDS
LEO constellation optimization for BDS precise orbit determination in LEO enhanced BDS
LEO-enhanced GNSS (LeGNSS) has been proposed and quickly gained prominence in recent years. A high-precision orbit is imperative for achieving accuracy in LeGNSS applications. The ...
Galileo broadcast ephemeris and clock errors, and observed fault probabilities for ARAIM
Galileo broadcast ephemeris and clock errors, and observed fault probabilities for ARAIM
(English) The characterization of Clock and Ephemeris error of the Global Navigation Satellite Systems is a key element to validate the assumptions for the integrity analysis of GN...
Improvements in autonomous GPS navigation of Low Earth Orbit satellites
Improvements in autonomous GPS navigation of Low Earth Orbit satellites
Es defineix un satèl·lit d'òrbita baixa aquell que es troba a una alçada de fins a 2000 km per sobre de la superfície de la Terra. Degut al ràpid decaïment dels objectes propers a ...
Formation Algorithms and Properties of Binary Quasi-Orthogonal Code Sequence of Modern Satellite Systems
Formation Algorithms and Properties of Binary Quasi-Orthogonal Code Sequence of Modern Satellite Systems
Increased number of threats to user interface of navigation signals, mainly in the form of suppression of navigation signals by jamming as well as navigation signal spoofing by fal...