Branch and cut is today's state-of-the-art method to solve 0/1-integer linear programs. Important for the success of this method is the generation of strong valid inequalities, which tighten the linear programming relaxation of 0/1-IPs and thus allow for early pruning of parts of the search tree. In this paper we present a novel approach to generate valid inequalities for 0/1-IPs which is based on binary decision diagrams (BDDs). BDDs are a data-structure which represents 0/1-vectors as paths of a certain acyclic graph. They have been successfully applied in computational logic, hardware verification and synthesis. We implemented our BDD cutting plane generator in a branch-and-cut framework and tested it on several instances of the MAX-ONES...
This thesis will introduce a historical perspective of the development of work in the field of multi...
AbstractOrdered Binary Decision Diagrams (OBDDs) and Free Binary Decision Diagrams (FBDDs) are data ...
Mixed-integer programming (MIP) is often a practitioner’s primary approach when tackling hard discre...
Branch & Cut is today’s state-of-the-art method to solve 0/1-integer linear programs. Important ...
In this work we show how Binary Decision Diagrams can be used as a powerful tool for 0/1~Integer Pro...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
In this work we show how Binary Decision Diagrams can be used as a powerful tool for 0/1 Integer Pro...
Most real-world optimization problems are multi-objective by nature, with conflicting and incomparab...
We present new valid inequalities for 0-1 programming problems that work in similar ways to well kno...
In binary decision diagrams (BDDs) were introduced as a technique for postoptimality analysis for in...
Cataloged from PDF version of article.We present new valid inequalities for 0-1 programming problems...
[EN] In this paper, a new branch-and-cut algorithm for mixed integer bi-level programming is propose...
In recent work binary decision diagrams (BDDs) were introduced as a technique for postoptimality ana...
This thesis will introduce a historical perspective of the development of work in the field of multi...
AbstractOrdered Binary Decision Diagrams (OBDDs) and Free Binary Decision Diagrams (FBDDs) are data ...
Mixed-integer programming (MIP) is often a practitioner’s primary approach when tackling hard discre...
Branch & Cut is today’s state-of-the-art method to solve 0/1-integer linear programs. Important ...
In this work we show how Binary Decision Diagrams can be used as a powerful tool for 0/1~Integer Pro...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
We propose a general branch-and-bound algorithm for discrete optimization in which binary decision d...
In this work we show how Binary Decision Diagrams can be used as a powerful tool for 0/1 Integer Pro...
Most real-world optimization problems are multi-objective by nature, with conflicting and incomparab...
We present new valid inequalities for 0-1 programming problems that work in similar ways to well kno...
In binary decision diagrams (BDDs) were introduced as a technique for postoptimality analysis for in...
Cataloged from PDF version of article.We present new valid inequalities for 0-1 programming problems...
[EN] In this paper, a new branch-and-cut algorithm for mixed integer bi-level programming is propose...
In recent work binary decision diagrams (BDDs) were introduced as a technique for postoptimality ana...
This thesis will introduce a historical perspective of the development of work in the field of multi...
AbstractOrdered Binary Decision Diagrams (OBDDs) and Free Binary Decision Diagrams (FBDDs) are data ...
Mixed-integer programming (MIP) is often a practitioner’s primary approach when tackling hard discre...