This paper focuses on estimating aircraft mass and thrust setting using a recursive Bayesian method called particle filtering. The method is based on a nonlinear state-space system derived from aircraft point-mass performance models. Using solely ADS-B and Mode-S data, flight states such as position, velocity, and wind speed are collected and used for the estimation. An important aspect of particle filtering is noise modeling. Four noise models are proposed in this paper based on the native ADS-B Navigation Accuracy Category (NAC) parameters. Simulations, experiments, and validation, based on a number of flights are carried out to test the theory. As a result, convergence of the estimation can usually be obtained within 30 seconds for any c...
Abstract—This paper focuses on the estimation of the aircraft mass in ground-based applications. Mas...
Automatic Dependent Surveillance - Broadcast (ADS-B) is a surveillance technology that is used exten...
The problem is recursive Bayesian estimation of position and velocity of a moving object using async...
This article investigates the estimation of aircraft mass and thrust settings of departing aircraft ...
Aircraft mass is a crucial piece of information for studies on aircraft performance, trajectory pred...
Aircraft mass is a crucial piece of information for studies on aircraft performance, trajectory pred...
Terrain-aided aircraft navigation can be used to detect and correct errors in inertial navigation sy...
: The terrain-aided navigation problem is a highly nonlinear estimation problem with application to ...
Terrain navigation is a concept for autonomous aircraft navigation. If measurements of the terrain h...
This paper focuses on the estimation of the aircraft mass in ground-based applications. Mass is a ke...
As a part of aircraft navigation three-dimensional position (horizontal position and altitude) must ...
Ground-based aircraft trajectory prediction is a major concern in air traffic control and management...
Abstract—This paper focuses on the estimation of the aircraft mass in ground-based applications. Mas...
Ground-based aircraft trajectory prediction is a major concern in air traffic control and management...
This paper proposes a composite Bayesian filtering approach for unmanned aerial vehicle trajectory e...
Abstract—This paper focuses on the estimation of the aircraft mass in ground-based applications. Mas...
Automatic Dependent Surveillance - Broadcast (ADS-B) is a surveillance technology that is used exten...
The problem is recursive Bayesian estimation of position and velocity of a moving object using async...
This article investigates the estimation of aircraft mass and thrust settings of departing aircraft ...
Aircraft mass is a crucial piece of information for studies on aircraft performance, trajectory pred...
Aircraft mass is a crucial piece of information for studies on aircraft performance, trajectory pred...
Terrain-aided aircraft navigation can be used to detect and correct errors in inertial navigation sy...
: The terrain-aided navigation problem is a highly nonlinear estimation problem with application to ...
Terrain navigation is a concept for autonomous aircraft navigation. If measurements of the terrain h...
This paper focuses on the estimation of the aircraft mass in ground-based applications. Mass is a ke...
As a part of aircraft navigation three-dimensional position (horizontal position and altitude) must ...
Ground-based aircraft trajectory prediction is a major concern in air traffic control and management...
Abstract—This paper focuses on the estimation of the aircraft mass in ground-based applications. Mas...
Ground-based aircraft trajectory prediction is a major concern in air traffic control and management...
This paper proposes a composite Bayesian filtering approach for unmanned aerial vehicle trajectory e...
Abstract—This paper focuses on the estimation of the aircraft mass in ground-based applications. Mas...
Automatic Dependent Surveillance - Broadcast (ADS-B) is a surveillance technology that is used exten...
The problem is recursive Bayesian estimation of position and velocity of a moving object using async...