TY - GEN
T1 - Three loop topologies scheme of spinning missiles with decoupling control
AU - Li, K.
AU - Yu, Y.
AU - Zhao, L.
PY - 2012
Y1 - 2012
N2 - Classical three loop topologies have been successfully employed in high performance command and homing guidance missiles. However, for spinning missile the crosscoupling effects between pitch and yaw channels which are induced by periodic rolling around longitudinal axis of missile have to be taken into account and decoupling is necessary in control system design. In this paper, dynamics model of spinning missiles in the form of complex summation is established and the state feedback controller is designed. Parameters of controller are obtained through eigenvalue placement for desired eigenvalues. According to physical components of missile control system, digital state observer is constructed. The control system results in a classical three loop topology autopilot with desired dynamic response. Meanwhile, the controller with complex feedback gains achieves decoupling control of spinning missile through cross-feedback-compensation. Finally, numerical simulation implied that the proposed method is efficient and suitable for engineering applications.
AB - Classical three loop topologies have been successfully employed in high performance command and homing guidance missiles. However, for spinning missile the crosscoupling effects between pitch and yaw channels which are induced by periodic rolling around longitudinal axis of missile have to be taken into account and decoupling is necessary in control system design. In this paper, dynamics model of spinning missiles in the form of complex summation is established and the state feedback controller is designed. Parameters of controller are obtained through eigenvalue placement for desired eigenvalues. According to physical components of missile control system, digital state observer is constructed. The control system results in a classical three loop topology autopilot with desired dynamic response. Meanwhile, the controller with complex feedback gains achieves decoupling control of spinning missile through cross-feedback-compensation. Finally, numerical simulation implied that the proposed method is efficient and suitable for engineering applications.
KW - Decoupling control
KW - Eigenvalue placement
KW - Spinning missiles
KW - State feedback
UR - http://www.scopus.com/inward/record.url?scp=84877769472&partnerID=8YFLogxK
U2 - 10.1049/cp.2012.1438
DO - 10.1049/cp.2012.1438
M3 - Conference contribution
AN - SCOPUS:84877769472
SN - 9781849195379
T3 - IET Conference Publications
SP - 2209
EP - 2212
BT - International Conference on Automatic Control and Artificial Intelligence, ACAI 2012
T2 - International Conference on Automatic Control and Artificial Intelligence, ACAI 2012
Y2 - 3 March 2012 through 5 March 2012
ER -