Ne. Parkes et al., ROLL LOOP DESIGN FOR BANK-TO-TURN GUIDANCE BY POLYNOMIAL METHODS, IEE proceedings. Part D. Control theory and applications, 140(6), 1993, pp. 435-441
Computer programs, based on the polynomial approach, have been used to
design fixed, linear, optimal roll loop controllers using typical pla
nt and disturbance models. Design parameters may be adjusted to produc
e systems which satisfy a hard limit on aileron angle and which have a
range of step responses. The controller complexity may be reduced as
part of the design process. The performance of the resulting single-lo
op system is examined and compared with that of the corresponding doub
le loop design in which roll rate as well as roll angle is fed back. I
n cases where weathercock oscillation is a problem, it is demonstrated
how the system attenuation at the weathercock frequency might be incr
eased. The details of a worked example are given in Appendix 8 to illu
strate the design method.