Netzer Bar Am

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We design a network-based H∞ filter for a parabolic system governed by a vector semilinear N-D diffusion equation over a rectangular domain Ω under distributed in space measurements. The sampled in timemeasurements are sent to the observer over a communication network according to Round-Robin scheduling protocol (one after another in a periodic manner). The(More)
We develop, for the first time, sampled-data Hcontrol for a class of parabolic systems. These systems are governed by semilinear transport reaction equations with additive disturbances and with distributed control on a finite interval. We suggest a sampled-data controller design, where the sampling intervals in time and in space are bounded. The network(More)
We develop distributed sampled-data control for parabolic systems governed by 1-d semilinear diffusion-convection equations. We suggest a sampled-data controller design, where the sampling intervals in time and in space are bounded. The network of N stationary sensing devices provide spatially averaged state measurements over the sampling spatial intervals.(More)
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