Andere Kunden interessierten sich auch für
![Sustainable Electrical Energy Supply Systems Modeling and Analysis]( "Sustainable Electrical Energy Supply Systems Modeling and Analysis")
Sustainable Electrical Energy Supply Systems Modeling and Analysis44,99 €![Dynamic Modeling and Control of Nonholonomic Wheeled Mobile Robot]( "Dynamic Modeling and Control of Nonholonomic Wheeled Mobile Robot")
Dynamic Modeling and Control of Nonholonomic Wheeled Mobile Robot32,99 €![Visualization and Control of Flexible Manufacturing Systems]( "Visualization and Control of Flexible Manufacturing Systems")
Visualization and Control of Flexible Manufacturing Systems51,99 €![Robust Control for Parametric Uncertain Systems]( "Robust Control for Parametric Uncertain Systems")
Robust Control for Parametric Uncertain Systems38,99 €![Optimal Control of Hybrid Systems with Regional Dynamics]( "Optimal Control of Hybrid Systems with Regional Dynamics")
Optimal Control of Hybrid Systems with Regional Dynamics38,99 €![Control Systems with Limited Feedback Information]( "Control Systems with Limited Feedback Information")
Control Systems with Limited Feedback Information44,99 €![Integrated Automotive Control Systems]( "Integrated Automotive Control Systems")
Integrated Automotive Control Systems32,99 €
This thesis is motivated by the possible benefits of a more precise trawl control system with respect to both environmental impact and fishing efficiency. A mathematical model of the trawl system is developed, including an accurate model of the hydrodynamic forces on the trawl doors. This model estimates both the steady state and the transient forces on trawl doors moving in six degrees of freedom. Various concepts for trawl door control are evaluated, and a new trawl door control concept is proposed. The trawl door control concept is developed to fulfill the demands on both energy consumption, robustness and control performance. It is improved using numerical optimization based on time- domain simulations of the trawl system. A trawl control architecture is presented. This takes industrial constraints into account, such as the energy supply on the trawl doors. The control system is based on model predictive control and facilitates complex objectives, constraints and process models.