论文信息 - Autonomous Flight Control for a Large-Scale Unmanned Helicopter

Autonomous Flight Control for a Large-Scale Unmanned Helicopter

Conventional unmanned helicopters are used to spray agricultural chemicals and take aerial photographs. In the near future, the aircrafts are expected to be used for a wide array of activities, such as rescuing and fire fighting. Then, an autonomous flight using several sensors typified by a global positioning system (GPS) is highly expected. In this paper, first, system identification experiments for a large-scale unmanned helicopter are carried out to obtain a numerical model of aircraft dynamics. The attitude error of the helicopter is compensated by a stability augmentation system that permits the experiments during the flight. System identification results are shown on the dynamics using the measured input and output data. Next, the position control systems based on the _??_∞ control theory is constructed by using the identified model. Finally, the position control experiments suggest that the proposed modeling and design approach is effective enough for practical applications.

[1] Lennart Ljung,et al. System Identification: Theory for the User , 1987 .

[2] P. Khargonekar,et al. State-space solutions to standard H/sub 2/ and H/sub infinity / control problems , 1989 .

[3] Michio Sugeno,et al. Fuzzy modeling and control : selected works of M. Sugeno , 1999 .

[4] Shuichi Adachi,et al. System identification experiments on a large-scale unmanned helicopter for autonomous flight , 2000, Proceedings of the 2000. IEEE International Conference on Control Applications. Conference Proceedings (Cat. No.00CH37162).

[5] P. Khargonekar,et al. State-space solutions to standard H2 and H∞ control problems , 1988, 1988 American Control Conference.

[6] Mark B. Tischler,et al. Frequency-Response Method for Rotorcraft System Identification: Flight Applications to BO 105 Coupled Rotor/Fuselage Dynamics , 1992 .