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About

About

Hello!

I am a teacher at the Faculty of Economics, University of Porto, and a researcher at LIAAD, one of INESC TEC's research groups.

My research mostly involves the development and application of (meta)heuristic procedures to combinatorial optimization problems, particularly scheduling problems. Currently, I am also learning data mining.

Interest
Topics
Details

Details

  • Name

    Jorge Valente
  • Role

    Research Coordinator
  • Since

    01st October 2012
Publications

2024

New heuristics for the 2-stage assembly scheduling problem with total earliness and tardiness minimisation: A computational evaluation

Authors
Talens, C; Valente, JMS; Fernandez-Viagas, V;

Publication
COMPUTERS & OPERATIONS RESEARCH

Abstract
Traditionally, scheduling literature has focused mainly on solving problems related to processing jobs with non- assembly operations. Despite the growing interest in the assembly literature in recent years, knowledge of the problem is still in its early stages in many aspects. In this regard, we are not aware of any previous contributions that address the assembly scheduling problem with just-in-time objectives. To fill this gap, this paper studies the 2-stage assembly scheduling problem minimising the sum of total earliness and total tardiness. We first analyse the relationship between the decision problem and the generation of the due dates of the jobs, and identify the equivalences with different related decision problems depending on the instances. The properties and conclusions obtained in the analysis are applied to design two constructive heuristics and a composite heuristic. To evaluate our proposals, different heuristics from the state-of-the-art of related scheduling problems are adapted, and a computational evaluation is carried out. The excellent behaviour of the proposed algorithms is demonstrated by an extensive computational evaluation.

2022

Metaheuristics for the permutation flowshop problem with a weighted quadratic tardiness objective

Authors
Silva, AF; Valente, JMS; Schaller, JE;

Publication
COMPUTERS & OPERATIONS RESEARCH

Abstract
In this paper, we consider a permutation flowshop problem, with a weighted squared tardiness objective function, which addresses an important criterion for many customers. Our objective is to find metaheuristics that can, within acceptable computational times, provide sizeable improvements in solution quality over the best existing procedure (a dispatching rule followed by an improvement method). We consider four metaheuristics, namely iterated local search (ILS), iterated greedy (IG), variable greedy (VG) and steady-state genetic algorithms (SSGA). These are known for performing well on permutation flowshops and/or on tardiness criteria. For each metaheuristic, four versions are developed, differing on the choice of initial sequence and/or local search. Additionally, four different time limits are considered. Therefore, a total of 64 sets of results are obtained. The results show that all procedures greatly outperform the best existing method. The IG procedures provide the best results, followed by the SSGA procedures. The VG methods are usually inferior to SSGA, while the ILS metaheuristics tend to be the worst performers. The four metaheuristics prove to be robust in what regards initial solution and local search method, since both have little effect on the performance of the metaheuristics. Increasing the time limit does improve the performance of all procedures. Still, a sizeable improvement is obtained even for the lowest time limit. Therefore, even under restrictive time limits, the metaheuristics greatly outperform the best existing procedure.

2022

Scheduling in a no-wait flow shop to minimise total earliness and tardiness with additional idle time allowed

Authors
Schaller, J; Valente, JMS;

Publication
INTERNATIONAL JOURNAL OF PRODUCTION RESEARCH

Abstract
Scheduling jobs in a no-wait flow shop with the objective of minimising total earliness and tardiness is the problem addressed in this paper. Idle time may be needed on the first machine due to the no-wait restriction. A model is developed that shows additional idle can be inserted on the first machine to help reduce earliness. Several dispatching heuristics previously used in other environments were modified and tested. A two-phased procedure was also developed, estimating additional idle in the first phase, and applying dispatching heuristics in the second phase. Several versions of an insertion improvement procedure were also developed. The procedures are tested on instances of various sizes and due date tightness and range. The results show the two-phase heuristics are more effective than the simple rules, and the insertion search improvement procedure can provide considerable improvements.

2020

Minimizing total earliness and tardiness in a nowait flow shop

Authors
Schaller, J; Valente, JMS;

Publication
INTERNATIONAL JOURNAL OF PRODUCTION ECONOMICS

Abstract
This paper considers the problem of scheduling jobs in a no-wait flow shop with the objective of minimizing total earliness and tardiness. An exact branch-and-bound algorithm is developed for the problem. Several dispatching heuristics used previously for other environments and two new heuristics were tested under a variety of conditions. It was found that one of the new heuristics consistently performed well compared to the others. An insertion search improvement procedure with speed up methods based on the structure of the problem was proposed and was found to deliver much improved solutions in a reasonable amount of time.

2020

Efficient procedures for the weighted squared tardiness permutation flowshop scheduling problem

Authors
Costa, MRC; Valente, JMS; Schaller, JE;

Publication
FLEXIBLE SERVICES AND MANUFACTURING JOURNAL

Abstract
This paper addresses a permutation flowshop scheduling problem, with the objective of minimizing total weighted squared tardiness. The focus is on providing efficient procedures that can quickly solve medium or even large instances. Within this context, we first present multiple dispatching heuristics. These include general rules suited to various due date-related environments, heuristics developed for the problem with a linear objective function, and procedures that are suitably adapted to take the squared objective into account. Then, we describe several improvement procedures, which use one or more of three techniques. These procedures are used to improve the solution obtained by the best dispatching rule. Computational results show that the quadratic rules greatly outperform the linear counterparts, and that one of the quadratic rules is the overall best performing dispatching heuristic. The computational tests also show that all procedures significantly improve upon the initial solution. The non-dominated procedures, when considering both solution quality and runtime, are identified. The best dispatching rule, and two of the non-dominated improvement procedures, are quite efficient, and can be applied to even very large-sized problems. The remaining non-dominated improvement method can provide somewhat higher quality solutions, but it may need excessive time for extremely large instances.

Supervised
thesis

2023

Backward Scheduling Constructive Heuristics for the Single Machine Weighted Tardiness Scheduling Problem

Author
Ana Sofia Madama Martins

Institution
UP-FEP

2023

The rise of populist attitudes: Using supervised machine learning to identify their main determinants

Author
António Borges Correia

Institution
UP-FEP

2023

Predicting Adherence to Public Health Measures During COVID-19 Pandemic: A Machine Learning Approach

Author
Daniela Couto Botelho Monteiro

Institution
UP-FEP

2023

What are the most relevant variables for predicting income inequality?: a machine learning approach

Author
Alex Francisco Fernandes Alves

Institution
UP-FEP

2023

Promotional Sales Forecasting in a Retail Setting

Author
Ana Margarida de Figueiredo Pereira

Institution
UP-FEP