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In this pape, a class of nonlinear time-delay systems based on the Takagi-Sugeno (T-S)fuzzy model is defined. We investigate the delay-independent stability of this model. A model-based fuzzy stabilization design utilizing the concept of the so-called “parallel distributed compensation” (PDC) is employed. The main idea of the controller design is to derive(More)
This paper studies the problem of congestion control in high speed communication networks, especially ATM. A modelbased predictive controller is proposed for rate flow control in a single bottleneck network. Through simulation, we show the predicive controller can effectively deal with the presence of uncertain and time-varying propagation delay.
It is highly likely that 10 Gigabit Ethernet over copper (10GBASE-T) transceivers will use a 10-level pulse amplitude modulation (PAM 10) as well as a 4D trellis code as in 1000BASE-T. The traditional trellis coded modulation scheme, as in 1000BASE-T, leads to a design where the corresponding decoder with a long critical path needs to operate at 833 MHz. It(More)