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Publication search results
found 36 matches
- 2023
- Bernardo Zimberg, Enrique D. Ferreira, Eduardo Camponogara:
A continuous-time formulation for scheduling crude oil operations in a terminal with a refinery pipeline. Comput. Chem. Eng. 178: 108354 (2023) - David Sayah:
Continuous-time formulations for multi-mode project scheduling. Comput. Oper. Res. 152: 106147 (2023) - David Sayah:
Continuous-Time Formulations for Multi-Mode Project Scheduling. CoRR abs/2301.04700 (2023) - Lorenz Richter, Leon Sallandt, Nikolas Nüsken:
From continuous-time formulations to discretization schemes: tensor trains and robust regression for BSDEs and parabolic PDEs. CoRR abs/2307.15496 (2023) - Paolo Bignardi, Andrea Moiola:
A space-time continuous and coercive formulation for the wave equation. CoRR abs/2312.07268 (2023) - 2022
- Eduardo Camponogara, Laio Oriel Seman, Cezar Antônio Rigo, Edemar Morsch Filho, Brenda Fernandes Ribeiro, Eduardo Augusto Bezerra:
A continuous-time formulation for optimal task scheduling and quality-of-service assurance in nanosatellites. Comput. Oper. Res. 147: 105945 (2022) - 2021
- Qingxin Guo, Lixin Tang, Jiyin Liu, Shengnan Zhao:
Continuous-time formulation and differential evolution algorithm for an integrated batching and scheduling problem in aluminium industry. Int. J. Prod. Res. 59(10): 3169-3184 (2021) - Rodrigo da Ponte Caun, Edvaldo Assunção, Marcelo Carvalho Minhoto Teixeira:
H 2/H ∞ formulation of LQR controls based on LMI for continuous-time uncertain systems. Int. J. Syst. Sci. 52(3): 612-634 (2021) - 2019
- Pedro M. Castro, Iiro Harjunkoski, Ignacio E. Grossmann:
Discrete and continuous-time formulations for dealing with break periods: Preemptive and non-preemptive scheduling. Eur. J. Oper. Res. 278(2): 563-577 (2019) - Mario Gnägi, Norbert Trautmann:
A Continuous-Time Mixed-Binary Linear Programming Formulation for the Multi-Site Resource-Constrained Project Scheduling Problem. IEEM 2019: 611-614 - 2018
- Hojae Lee, Christos T. Maravelias:
Combining the advantages of discrete- and continuous-time scheduling models: Part 1. Framework and mathematical formulations. Comput. Chem. Eng. 116: 176-190 (2018) - Rui Ma, Xuegang (Jeff) Ban, Jong-Shi Pang:
A Link-Based Differential Complementarity System Formulation for Continuous-Time Dynamic User Equilibria with Queue Spillbacks. Transp. Sci. 52(3): 564-592 (2018) - Mario Gnägi, Tom Rihm, Norbert Trautmann:
A Continuous-Time MILP Formulation for the Multi-Mode Resource-Constrained Project Scheduling Problem. IEEM 2018: 452-456 - Mario Gnägi, Adrian Zimmermann, Norbert Trautmann:
A Continuous-Time Unit-Based MILP Formulation for the Resource-Constrained Project Scheduling Problem. IEEM 2018: 432-436 - 2017
- Pedro M. Castro, Hossein Mostafaei:
Product-centric continuous-time formulation for pipeline scheduling. Comput. Chem. Eng. 104: 283-295 (2017) - Saman Lagzi, Ricardo Fukasawa, Luis A. Ricardez-Sandoval:
A multitasking continuous time formulation for short-term scheduling of operations in multipurpose plants. Comput. Chem. Eng. 97: 135-146 (2017) - Miguel Vieira, Tânia Pinto-Varela, Ana Paula F. D. Barbosa-Póvoa:
Production and maintenance planning optimisation in biopharmaceutical processes under performance decay using a continuous-time formulation: A multi-objective approach. Comput. Chem. Eng. 107: 111-139 (2017) - YuMing Zhao, Naiqi Wu, ZhiWu Li:
A novel solution approach to scheduling of crude-oil operations based on an improved continuous-time formulation. ICNSC 2017: 482-487 - 2016
- Pedro M. Castro:
Source-based discrete and continuous-time formulations for the crude oil pooling problem. Comput. Chem. Eng. 93: 382-401 (2016) - Miguel Vieira, Tânia Pinto-Varela, Samuel Moniz, Ana Paula F. D. Barbosa-Póvoa, Lazaros G. Papageorgiou:
Optimal planning and campaign scheduling of biopharmaceutical processes using a continuous-time formulation. Comput. Chem. Eng. 91: 422-444 (2016) - Hossein Mostafaei, Pedro M. Castro:
Continuous-Time Formulation for Oil Products Transportation Scheduling. ICCL 2016: 384-396 - 2014
- Georgios M. Kopanos, Thomas S. Kyriakidis, Michael C. Georgiadis:
New continuous-time and discrete-time mathematical formulations for resource-constrained project scheduling problems. Comput. Chem. Eng. 68: 96-106 (2014) - 2011
- Tengfei Liu, David J. Hill, Zhong-Ping Jiang:
Lyapunov formulation of ISS cyclic-small-gain in continuous-time dynamical networks. Autom. 47(9): 2088-2093 (2011) - 2010
- Robert A. Brown, Michel Louis Lauzon, Richard Frayne:
A general description of linear time-frequency transforms and formulation of a fast, invertible transform that samples the continuous S-transform spectrum nonredundantly. IEEE Trans. Signal Process. 58(1): 281-290 (2010) - Travis Dierks, Sarangapani Jagannathan:
Optimal control of affine nonlinear continuous-time systems using an online Hamilton-Jacobi-Isaacs formulation. CDC 2010: 3048-3053 - 2009
- Diego M. Giménez, Gabriela P. Henning, Christos T. Maravelias:
A novel network-based continuous-time representation for process scheduling: Part I. Main concepts and mathematical formulation. Comput. Chem. Eng. 33(9): 1511-1528 (2009) - Christos T. Maravelias, Konstantinos Papalamprou:
Polyhedral results for discrete-time production planning MIP formulations for continuous processes. Comput. Chem. Eng. 33(11): 1890-1904 (2009) - Pedro J. Zufiria:
A formulation for fault detection in stochastic continuous-time dynamical systems. Int. J. Comput. Math. 86(10&11): 1778-1797 (2009) - 2008
- Yves Pochet, François Warichet:
A tighter continuous time formulation for the cyclic scheduling of a mixed plant. Comput. Chem. Eng. 32(11): 2723-2744 (2008) - Draguna L. Vrabie, Frank L. Lewis, Daniel S. Levine:
Neural Network-Based Adaptive Optimal Controller - A Continuous-Time Formulation. ICIC (3) 2008: 276-285
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