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Multirate-sampled digital feedback system design via a predictive control approach

Multirate-sampled digital feedback system design via a predictive control approach

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Utilising a model-based predictive control methodology, the paper describes the synthesis of two-degrees-of-freedom digital controllers in which either the control or measured variable is relatively fast-sampled. In contrast with previous related contributions, which were predicated upon state-space representations and viewed the use of unconventional sampling strategies as a means of providing additional flexibility in pole-assignment, input-output models are employed exclusively and in this context multirate sampling is regarded as a prospective design or implementational aid. With respect to the latter consideration, it is demonstrated that the intrinsic lowpass filtering nature of fast output signal-sampled predictive compensators significantly reduces the sensitivity of a digital feedback system to measurement noise.

Inspec keywords: digital control; filtering theory; control system synthesis; feedback; predictive control; sensitivity; low-pass filters; compensation; sampled data systems

Other keywords: measurement noise; fast output signal-sampled predictive compensators; two-degrees-of-freedom digital controllers; low pass filtering; input-output models; multirate-sampled digital feedback system

Subjects: Signal processing theory; Discrete control systems; Control system analysis and synthesis methods; Optimal control

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