A novel flight envelope protection method is presented. The approach is based on a model predictive receding horizon formulation, which computes at each instant in time the future extremal control inputs that would lead the vehicle to ride the flight envelope boundary without ever exceeding it. The extremal inputs are then used for pilot cueing. The calculation of the extremal inputs is based on the constrained optimization of a quadratic figure of merit for a reduced-order linear parameter varying model of the vehicle. The model accounts for the cross-couplings among the inputs that characterize the flight mechanics of rotorcraft vehicles and spans the entire flight envelope of interest by piecewise linear interpolation of given trim point...