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http://hdl.handle.net/2117/7219
Tue, 09 Feb 2016 14:24:27 GMT2016-02-09T14:24:27ZSimultaneous Interconnection and Damping Assignment Passivity-Based Control: Two Practical Examples
http://hdl.handle.net/2117/6084
Simultaneous Interconnection and Damping Assignment Passivity-Based Control: Two Practical Examples
Batlle Arnau, Carles; Dòria Cerezo, Arnau; Espinosa Pérez, Gerardo; Ortega, Romeo
Passivity-based control (PBC) is a generic name given to a family of controller design techniques that achieves system stabilization via the route of passivation, that is, rendering the closed-loop system passive with a desired storage function (that usually qualifies as a Lyapunov function for the stability analysis.) If the passivity property turns out to be output strict, with an output signal with respect to which the system is detectable, then asymptotic stability is ensured.
Mon, 14 Dec 2009 09:03:05 GMThttp://hdl.handle.net/2117/60842009-12-14T09:03:05ZBatlle Arnau, CarlesDòria Cerezo, ArnauEspinosa Pérez, GerardoOrtega, RomeoPassivity-based control (PBC) is a generic name given to a family of controller design techniques that achieves system stabilization via the route of passivation, that is, rendering the closed-loop system passive with a desired storage function (that usually qualifies as a Lyapunov function for the stability analysis.) If the passivity property turns out to be output strict, with an output signal with respect to which the system is detectable, then asymptotic stability is ensured.Semi-Dynamic Demand in a Non-Permutation Flowshop with Constrained Resequencing Buffers.
http://hdl.handle.net/2117/6072
Semi-Dynamic Demand in a Non-Permutation Flowshop with Constrained Resequencing Buffers.
Färber, Gerrit Hartmut; Salhi, Said; Coves Moreno, Anna Maria
This work presents the performance comparison of two conceptually different approaches for a mixed model non-permutation flowshop production line. The demand is a semi-dynamic demand with a fixed job sequence for the first station. Resequencing is permitted where stations have access to intermediate or centralized resequencing buffers. The access to the buffers is restricted by the number of available buffer places and the physical size of the products. An exact approach, using Constraint Logic Programming (CLP), and a heuristic approach, a Genetic Algorithm (GA), were applied.
Mon, 30 Nov 2009 11:10:44 GMThttp://hdl.handle.net/2117/60722009-11-30T11:10:44ZFärber, Gerrit HartmutSalhi, SaidCoves Moreno, Anna MariaThis work presents the performance comparison of two conceptually different approaches for a mixed model non-permutation flowshop production line. The demand is a semi-dynamic demand with a fixed job sequence for the first station. Resequencing is permitted where stations have access to intermediate or centralized resequencing buffers. The access to the buffers is restricted by the number of available buffer places and the physical size of the products. An exact approach, using Constraint Logic Programming (CLP), and a heuristic approach, a Genetic Algorithm (GA), were applied.