@inproceedings{a77d16db5f914bea939a86d1c2f53b2e,
title = "Dynamic modeling and nonlinear decoupling control of inertial stabilized platform for aerial remote sensing system",
abstract = "The mutual coupling between the motion of three frames exists when inertial stabilized platform (ISP) for aerial remote sensing system is working, due to the mechanical character of the stabilized platform. Based on Lagrange mechanics and starting from analytical mechanics, a kinetics model of inertial stabilized platform is developed for analyzing the complex coupling relation. On the basis of the model, a nonlinear decoupling control method using sliding mode control (SMC) is designed for rolling and pitching frames after coupling moment being taken for external disturbance. While, for azimuth frame, which can not directly adopt sliding mode control method, a novel method of introducing a judgment factor and combining SMC and PID is provided. Compared with PID method, the simulation results show that the overshoot of the system is reduced obviously and the decoupling effect is better. Results obtained will be a theoretical foundation for the further study of inertial stabilized platform, and guarantee high precision to stabilized platform system.",
keywords = "Decoupling, Kinetics model, Lagrange mechanics, Sliding mode control, Stabilized platform",
author = "Rui Yin and Rui Wang and Zhou, \{Xiang Yang\} and Peng, \{Xiang Yang\} and Ke Wang",
year = "2014",
doi = "10.4028/www.scientific.net/AMR.898.807",
language = "英语",
isbn = "9783038350361",
series = "Advanced Materials Research",
publisher = "Trans Tech Publications",
pages = "807--813",
booktitle = "Applied Material Science and Related Technologies",
address = "德国",
note = "2014 3rd International Conference on Intelligent System and Applied Material, GSAM 2014 ; Conference date: 18-01-2014 Through 19-01-2014",
}