论文信息 - SINGULARITY AVOIDANCE LAW FOR CMG USING VIRTUAL ACTUATOR

SINGULARITY AVOIDANCE LAW FOR CMG USING VIRTUAL ACTUATOR

Abstract CMGs are actuators for the attitude control of spacecraft. The simplest steering logic of CMGs is the well-known pseudo-inverse method, which is derived from the minimization problem. A drawback of this logic is that the CMG can be singular during the operation. In this paper, the singularity problem is investigated, and a singularity avoidance steering law for CMGs using virtual actuator is proposed. The virtual vector is determined by cross product with 4 column vectors of Jacobian matrix. Using this virtual vector, the system can escape the singular state effectively when CMGs approaches to singular configuration.

Hyochoong Bang | Min-Jea Tahk | Dong-Hun Lee | Hyunjae Lee

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