Zhaosheng Yu scite author profile

This paper investigates the problem of output feedback adaptive stabilization for a class of nonstrict-feedback stochastic nonlinear systems with both unknown backlashlike hysteresis and unknown control directions. A new linear state transformation is applied to the original system, and then, control design for the new system becomes feasible. By combining the neural network's (NN's) parameterization, variable separation technique, and Nussbaum gain function method, an input-driven observer-based adaptive NN control scheme, which involves only one parameter to be updated, is developed for such systems. All closed-loop signals are bounded in probability and the error signals remain semiglobally bounded in the fourth moment (or mean square). Finally, the effectiveness and the applicability of the proposed control design are verified by two simulation examples.

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A Mechanism Study on Hydrothermal Carbonization of Waste Textile

Lin

Peng

et al. 2016

Energy Fuels

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In this work, waste textile (WT) was employed as one representative pseudo-component of municipal solid waste (MSW) to investigate the mechanisms during hydrothermal carbonization (HTC) process. The experiments were examined at 230 and 280 °C with the residence time from 30 min to 90 min. The chemical component analysis showed that a significant fraction of fixed carbon was retained within the hydrochar, while ∼98% volatile matter was detected in the soluble fraction. Our results clearly demonstrate that decarboxylation was the most important defunctionalization process, whereas dehydration turned out to be less important. The combustibility index (S) and the combustion stability index (R w ) of the hydrochar were both greater than those of WT, suggesting hydrochar was superior in combustion performance. Fourier transform infrared (FTIR) analysis and solid-state 13 C nuclear magnetic resonance (NMR) characterization displayed that large amount of aliphatic compounds decomposed, while enhancements of aromatic and carbonyl types carbons were observed in hydrochar and soluble. Higher temperature enhanced the breakage of unreacted feedstock to fragment and enforced the aromatization and repolymerization reactions to form the solid char and liquid phase. Between char and liquid phase, recombined, polycondensation and repolymerization reactions progressively occupied the dominant effects. These reactions promoted char and oil-range molecules to form hydrochar. On the basis of these outcomes, a conversion pathway of hydrothermal carbonization of WT was proposed.

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Adaptive neural control for a class of pure-feedback nonlinear time-delay systems with asymmetric saturation actuators

2016

Neurocomputing

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Combustion, pyrolysis and char CO2-gasification characteristics of hydrothermal carbonization solid fuel from municipal solid wastes

Lin

Peng

et al. 2016

Fuel

141

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Zhaosheng Yu

Effect of hydrothermal carbonization temperature on combustion behavior of hydrochar fuel from paper sludge

Adaptive Neural Output Feedback Control for Nonstrict-Feedback Stochastic Nonlinear Systems With Unknown Backlash-Like Hysteresis and Unknown Control Directions

A Mechanism Study on Hydrothermal Carbonization of Waste Textile

Adaptive neural control for a class of pure-feedback nonlinear time-delay systems with asymmetric saturation actuators

Combustion, pyrolysis and char CO2-gasification characteristics of hydrothermal carbonization solid fuel from municipal solid wastes

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