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- Title
Optimal tracking over noisy channels in the presence of data dropouts.
- Authors
Zhi-Hong Guan; Xiao-Wei Jiang; Xi-Sheng Zhan; Ding-Xue Zhang; Fu-Shun Yuan
- Abstract
This study investigates the optimal tracking performance of multiple-input multiple-output linear time-invariant systems over a noisy channel in the feedback path. The communication channel is also subject to data dropouts, which was modelled as a binary stochastic process. The problem under consideration amounts to determining the minimal error in tracking a Brownian motion random process, which emulates a step reference signal in the deterministic setting. With the unity feedback and two-parameter control structure, a lower bound and an exact expression of optimal tracking performance are obtained respectively. It is shown how the noise may degenerate the tracking performance and how the data dropouts effect may intertwine with unstable poles and non-minimum phase zeros, including the location and direction, which are intrinsic characteristics of the plant. Finally, computer simulations are provided to illustrate the analytical results obtained.
- Subjects
LINEAR time invariant systems; LINEAR systems; DISCRETE-time systems; WIENER processes; MARKOV processes
- Publication
IET Control Theory & Applications (Wiley-Blackwell), 2013, Vol 7, Issue 12, p1634
- ISSN
1751-8644
- Publication type
Article
- DOI
10.1049/iet-cta.2012.0573