The small endurance UAV (Fig.3) developedby KARI is the traditional tailless aircraft with horizontal control surfaceson its main wing surface. It has rudders at the wing tips for verticalstabilization. 

We selected the linear quadratic regulator (LQR)control law based on full states feedback. For longitudinal control, altitudeand airspeed hold controller was designed. For lateral control, bank hold,heading hold, line and circle following controllers were designed. Integral-errorfeedback was added by applying LQR control laws to the dynamic system augmentedwith integral-error state, to remove the steady state error due to externaldisturbance and inaccurate model information.

The U-blox 4 module GPS receiver was usedas the main sensor. Flight modes consist of manual, stick auto, hold mode,waypoint navigation, pre-program and emergency modes such as return home. Eachcontroller of hold mode was tested. As a result, the error of airspeed andaltitude converged within 1 m/s and 1 m in the steady state (Fig.7, 8). Due tothe limitation of linear controller, the error of bank hold controllerincreased in proportion to bank command (Fig.11). Heading hold controllerconverged within 2 degree (Fig.12). In the waypoint navigation mode, circlefollowing and path following controller was tested. The cross track error waskept within 10 m (Fig.9, 10, 13, 14).