Spelling suggestions: "subject:"manoeuvre tracking"" "subject:"manoeuvres tracking""
1 |
Acceleration based manoeuvre flight control system for unmanned aerial vehiclesPeddle, Iain K. 12 1900 (has links)
Thesis (PhD (Electrical and Electronic Engineering))--Stellenbosch University, 2008. / A strategy for the design of an effective, practically feasible, robust, computationally efficient
autopilot for three dimensional manoeuvre flight control of Unmanned Aerial Vehicles is
presented. The core feature of the strategy is the design of attitude independent inner loop
acceleration controllers. With these controllers implemented, the aircraft is reduced to a point
mass with a steerable acceleration vector when viewed from an outer loop guidance
perspective. Trajectory generation is also simplified with reference trajectories only required
to be kinematically feasible. Robustness is achieved through uncertainty encapsulation and
disturbance rejection at an acceleration level.
The detailed design and associated analysis of the inner loop acceleration controllers is carried
out for the case where the airflow incidence angles are small. For this case it is shown that
under mild practically feasible conditions the inner loop dynamics decouple and become
linear, thereby allowing the derivation of closed form pole placement solutions. Dimensional
and normalised non-dimensional time variants of the inner loop controllers are designed and
their respective advantages highlighted. Pole placement constraints that arise due to the
typically weak non-minimum phase nature of aircraft dynamics are developed.
A generic, aircraft independent guidance control algorithm, well suited for use with the inner
loop acceleration controllers, is also presented. The guidance algorithm regulates the aircraft
about a kinematically feasible reference trajectory. A number of fundamental basis trajectories
are presented which are easily linkable to form complex three dimensional manoeuvres.
Results from simulations with a number of different aircraft and reference trajectories illustrate
the versatility and functionality of the autopilot.
Key words: Aircraft control, Autonomous vehicles, UAV flight control, Acceleration control,
Aircraft guidance, Trajectory tracking, Manoeuvre flight control.
|
Page generated in 0.0506 seconds