The design of a sensor fault tolerant system which uses analytical redundancy for the Terminal Configured Vehicle (TCV) research aircraft in a Microwave Landing System (MLS) environment was studied. The fault tolerant system provides reliable estimates for aircraft position, velocity, and attitude in the presence of possible failures in navigation aid instruments and onboard sensors. The estimates, provided by the fault tolerant system, are used by the automated guidance and control system to land the aircraft along a prescribed path. Sensor failures are identified by utilizing the analytic relationship between the various sensor outputs arising from the aircraft equations of motion
A highly-reliable, fault-tolerant reconfigurable computer system for aircraft applications was devel...
L'objectif est de cette thèse est de développer, de tester puis d'implémenter des schémas de surveil...
The ever-increasing use of drones and their integration within the existing air trafic demand a cert...
The performance analysis results of a fault inferring nonlinear detection system (FINDS) using senso...
This report presents a preliminary design for flight testing the FINDS (Fault Inferring Nonlinear De...
The presence of failures in navigation sensors can cause the determination of an erroneous aircraft ...
Revisions to the advanced sensor failure detection, isolation, and accommodation (DIA) algorithm, de...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83640/1/AIAA-2010-7855-622.pd
Failure detection and identification logic for a fault-tolerant longitudinal control system were inv...
The modifications to the design of a fault inferring nonlinear detection system (FINDS) algorithm to...
Spacecraft systems need increased on board autonomy to detect the occurred faults (e.g., faults in ...
The computer program FINDS is written in FORTRAN-77, and is intended for operation on a VAX 11-780 o...
The development and evaluation of a fault-tolerant system for the Redundant Strapdown Inertial Measu...
It is shown that the estimator part of the Modified Partitioned Adaptive Controller, (MPAC) develope...
To maintain nominal flight control system functionalities during fault scenarios, enhancements of th...
A highly-reliable, fault-tolerant reconfigurable computer system for aircraft applications was devel...
L'objectif est de cette thèse est de développer, de tester puis d'implémenter des schémas de surveil...
The ever-increasing use of drones and their integration within the existing air trafic demand a cert...
The performance analysis results of a fault inferring nonlinear detection system (FINDS) using senso...
This report presents a preliminary design for flight testing the FINDS (Fault Inferring Nonlinear De...
The presence of failures in navigation sensors can cause the determination of an erroneous aircraft ...
Revisions to the advanced sensor failure detection, isolation, and accommodation (DIA) algorithm, de...
Peer Reviewedhttp://deepblue.lib.umich.edu/bitstream/2027.42/83640/1/AIAA-2010-7855-622.pd
Failure detection and identification logic for a fault-tolerant longitudinal control system were inv...
The modifications to the design of a fault inferring nonlinear detection system (FINDS) algorithm to...
Spacecraft systems need increased on board autonomy to detect the occurred faults (e.g., faults in ...
The computer program FINDS is written in FORTRAN-77, and is intended for operation on a VAX 11-780 o...
The development and evaluation of a fault-tolerant system for the Redundant Strapdown Inertial Measu...
It is shown that the estimator part of the Modified Partitioned Adaptive Controller, (MPAC) develope...
To maintain nominal flight control system functionalities during fault scenarios, enhancements of th...
A highly-reliable, fault-tolerant reconfigurable computer system for aircraft applications was devel...
L'objectif est de cette thèse est de développer, de tester puis d'implémenter des schémas de surveil...
The ever-increasing use of drones and their integration within the existing air trafic demand a cert...