Design of a transport aircraft automatic flight control system with analytical redundancy

Benkhedda, Hassen

January 1994

No description available.

629.135

An airborne windshear detection system for general aviation aircraft

Dyne, Helen Katherine

January 1995

No description available.

629.135

Reconfigurable flight control systems for a generic fighter aircraft

Aslam-Mir, Shahzad

January 1992

No description available.

629.135

Fast-sampling direct flight-mode control systems

Garis, A.

January 1981

No description available.

629.135

Multivariable flight control systems for agile combat aircraft

Elramlawy, Abdelbaset Abdelgaied

January 1992

No description available.

629.135

Co-operative conflict resolution in autonomous aircraft operations using a multi-agent approach

Ruiz, Miguel Angel Vilaplana

January 2002

No description available.

629

Individual channel analysis and design and its application to helicopter flight control

Dudgeon, Graham John William

January 1996

No description available.

629.135

The design of a fuzzy logic system for control of an unmanned aircraft

Assuncao, Jose Manuel Ventura

January 1996

Many control problems are based on control objectives easily quantified and consequently realisable by standard control synthesis methods. When an unmanned aircraft navigates, it moves inside a complex environment due to interactions with its surrounding and time varying environmental conditions. Several causes of perturbations have been identified as for example gusts and corrupted information of position. The characteristics of possible missions carried out by the un manned aircraft leads to the desire to construct navigation control systems which when operated in perturbed environments combine the advantages of smooth control with accurate navigation. Rule based, and adaptive controllers have favourable properties for such systems. This thesis investigates the use of a rule based navigation controller for a particular unmanned aircraft, the XRAEl aircraft. To achieve this objective several different types of fuzzy logic controllers are analysed as for example conventional and direct and indirect adaptive fuzzy controllers. They are designed by employing simple control engineering knowledge and subsequently validated using a stability method. For this purpose diverse stability methods are described and a new technique presented, the fuzzy root locus method, which is also based on the introduction of a new concept for fuzzy logic controllers, the fuzzy cell. The realisation of this work has been achieved by a series of simulation tests employing different processes and a simulation model of the XRAEl aircraft. The conclusions drawn from the results of the experiments consider in general that a rule based controller can improve the quality of navigation when compared to conventional controllers.

629.135

Microprocessor-based digital flight control system design for an R.P.V

Gittens, Simon Nevis

January 1985

The development of a microprocessor based digital flight control system for a particular R.P.V. is described. The tasks required of this system are defined, and thereafter, the hardware circuits and the software structure necessary to implement a prototype are presented. The autopilot control laws are inferred from z-plane root loci, and then confirmed using digital simulations of the de-coupled roll and pitch attitude loops. The problems of the finite wordlength implementation of the control laws are discussed, and then both hybrid simulation and actual flight results are used to prove the performance of the prototype. To exploit the adaptive capabilities of a software based system, a sliding mode variable structure control law is developed for the roll attitude loop. Digital simulations are used to show that significant improvements in sensitivity reduction can be achieved under some conditions. These improvements are lost if a realistic servo-actuator model is employed. Another objective, namely the reduction of the disturbance error induced by trim imbalance, is maintained provided a reduced order switching function is used.

629.135

Aircraft simulation and robust flight control system design

Aslin, P. P.

January 1985

No description available.

629.135