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Antonio Flores-Tlacuahuac
Researcher at Monterrey Institute of Technology and Higher Education
Publications - 123
Citations - 2529
Antonio Flores-Tlacuahuac is an academic researcher from Monterrey Institute of Technology and Higher Education. The author has contributed to research in topics: Optimization problem & Nonlinear programming. The author has an hindex of 28, co-authored 116 publications receiving 2118 citations. Previous affiliations of Antonio Flores-Tlacuahuac include Carnegie Mellon University & Universidad Iberoamericana Ciudad de México.
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Simultaneous cyclic scheduling and control of a multiproduct CSTR
TL;DR: A simultaneous scheduling and control formulation is proposed by explicitly incorporating into the scheduling model process dynamics in the form of differential/algebraic constraints, which is able to handle nonlinearities embedded into the processing system.
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Stability of multiobjective predictive control
TL;DR: A utopia-tracking strategy to handle multiple conflicting objectives in model predictive control that avoids the computation of Pareto fronts in real-time environments is proposed.
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Simultaneous mixed-integer dynamic optimization for integrated design and control
TL;DR: This work considers strategies for integrated design and control through the robust and efficient solution of a mixed-integer dynamic optimization (MIDO) problem and develops three MINLP formulations based on a nonconvex formulation, the conventional Big-M formulation and generalized disjunctive programming (GDP).
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Modeling, simulation and control of an internally heat integrated pressure-swing distillation process for bioethanol separation
TL;DR: By means of the proposed separation process, high-purity ethanol, suitable for use in the transportation sector, is obtained and the purity of ethanol is maintained with the control structure proposed in the face of upsets.
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Dynamic optimization of HIPS open-loop unstable polymerization reactors
TL;DR: The stability of the SDO strategy is described through the presentation of dichotomy properties for boundary-value problems and is demonstrated on a wide variety of operating scenarios for the high-impact polystyrene (HIPS) reactor, with highly reliable and efficient performance results.