Bi-Objective Combinatorial Optimization problems are ubiquitous in real-world applications and designing approaches to solve them efficiently is an important research area of Artificial Intelligence. In Constraint Programming, the recently introduced bi-objective Pareto constraint allows one to solve bi-objective combinatorial optimization problems exactly. Using this constraint, every non-dominated solution is collected in a single tree-search while pruning sub-trees that cannot lead to a non-dominated solution. This paper introduces a simpler and more efficient filtering algorithm for the bi-objective Pareto constraint. The efficiency of this algorithm is experimentally confirmed on classical bi-objective benchmarks
This paper focuses on a multi-objective derivation of branch-and-bound procedures. Such a procedure ...
We describe a new algorithm for bi-objective optimization, similar to the Nelder Mead simplex algor...
International audienceWe discuss the use of column generation in a bi-objective setting. Just as in ...
Bi-Objective Combinatorial Optimization problems are ubiquitous in real-world applications and desig...
Multi-Objective Combinatorial Optimization (MOCO) problems are ubiquitous in real-world applications...
Real-life problems often exhibit a multi-criteria structure: user requirements are many and possibl...
Bi-objective optimisation aims to optimise two generally competing objective functions. Typically, i...
In bi-objective search, we are given a graph in which each directed arc is associated with a pair of...
In bi-objective search, we are given a graph in which each directed arc is associated with a pair of...
We explore a maximum satisfiability (MaxSAT) based approach to bi-objective optimization. Bi-objecti...
International audienceMany practical combinatorial optimization problems can be described by integer...
Bi-objective combinatorial optimization (BOCO) deals with mathematical programming models where two ...
Many real-world problem settings give rise to NP-hard combinatorial optimization problems. This resu...
Most real-world optimization problems are multi-objective by nature, with conflicting and incomparab...
International audienceThe bi-objective set packing problem is a multi-objective combinatorial optimi...
This paper focuses on a multi-objective derivation of branch-and-bound procedures. Such a procedure ...
We describe a new algorithm for bi-objective optimization, similar to the Nelder Mead simplex algor...
International audienceWe discuss the use of column generation in a bi-objective setting. Just as in ...
Bi-Objective Combinatorial Optimization problems are ubiquitous in real-world applications and desig...
Multi-Objective Combinatorial Optimization (MOCO) problems are ubiquitous in real-world applications...
Real-life problems often exhibit a multi-criteria structure: user requirements are many and possibl...
Bi-objective optimisation aims to optimise two generally competing objective functions. Typically, i...
In bi-objective search, we are given a graph in which each directed arc is associated with a pair of...
In bi-objective search, we are given a graph in which each directed arc is associated with a pair of...
We explore a maximum satisfiability (MaxSAT) based approach to bi-objective optimization. Bi-objecti...
International audienceMany practical combinatorial optimization problems can be described by integer...
Bi-objective combinatorial optimization (BOCO) deals with mathematical programming models where two ...
Many real-world problem settings give rise to NP-hard combinatorial optimization problems. This resu...
Most real-world optimization problems are multi-objective by nature, with conflicting and incomparab...
International audienceThe bi-objective set packing problem is a multi-objective combinatorial optimi...
This paper focuses on a multi-objective derivation of branch-and-bound procedures. Such a procedure ...
We describe a new algorithm for bi-objective optimization, similar to the Nelder Mead simplex algor...
International audienceWe discuss the use of column generation in a bi-objective setting. Just as in ...