The paper presents the time simulation modules for the end-to-end simulator for satellite navigation systems (project: Modular Software Simulator for Navigation Systems NavSim), which simulates the clock errors on satellites and ground stations as well as the resulting system time error. The paper describes the used models and algorithms and shows some simulation results
The Milstar communications satellite system will provide secure antijam communication capa-bilities ...
Abstract GPS zero-difference applications with a sampling rate up to 1 Hz require corresponding high...
Global navigation satellite systems need a stable and robust system time in order to provide service...
Abstract. There are many difficulties to establish a real satellite receiver in a laboratory environ...
The GPS system is simulated in three scenarios, so as to estimate how its performance would be impro...
Using the GPS Toolkit, the GPS constellation is simulated using thirty-one satellites (SV) and a gro...
Global navigation satellite systems need a stable and robust system time in order to provide service...
The thesis investigates time aspects of satellite-based navigation systems to be newly developed. Al...
This paper examines the timekeeping environments of several orbital and aircraft flight scenarios fo...
Time transfer between atomic clocks is usually carried out using the well known GNSS Common View / A...
This thesis is a part of a PhD project called Algorithm for Coupled Navigation Using an Inertial M...
Over the last twenty years, many technologies and services have come to rely on the GPS for precise ...
In order to obtain high quality positions from navigation satellites, range errors have to be identi...
The time maintenance accuracy of the navigation constellation determines the user positioning and ti...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
The Milstar communications satellite system will provide secure antijam communication capa-bilities ...
Abstract GPS zero-difference applications with a sampling rate up to 1 Hz require corresponding high...
Global navigation satellite systems need a stable and robust system time in order to provide service...
Abstract. There are many difficulties to establish a real satellite receiver in a laboratory environ...
The GPS system is simulated in three scenarios, so as to estimate how its performance would be impro...
Using the GPS Toolkit, the GPS constellation is simulated using thirty-one satellites (SV) and a gro...
Global navigation satellite systems need a stable and robust system time in order to provide service...
The thesis investigates time aspects of satellite-based navigation systems to be newly developed. Al...
This paper examines the timekeeping environments of several orbital and aircraft flight scenarios fo...
Time transfer between atomic clocks is usually carried out using the well known GNSS Common View / A...
This thesis is a part of a PhD project called Algorithm for Coupled Navigation Using an Inertial M...
Over the last twenty years, many technologies and services have come to rely on the GPS for precise ...
In order to obtain high quality positions from navigation satellites, range errors have to be identi...
The time maintenance accuracy of the navigation constellation determines the user positioning and ti...
This paper describes a GPS receiver clock model that can improve the accuracy of kinematic orbit det...
The Milstar communications satellite system will provide secure antijam communication capa-bilities ...
Abstract GPS zero-difference applications with a sampling rate up to 1 Hz require corresponding high...
Global navigation satellite systems need a stable and robust system time in order to provide service...