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CUTTING PLANE ALGORITHMS FOR INTEGER PROGRAMMING
, 1998
"... Cutting plane methods are exact algorithms for integer programming problems. They have proven to be very useful computationally in the last few years, especially when combined with a branch and bound algorithm in a branch and cut framework. These methods work by solving a sequence of linear programm ..."
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Cited by 3 (0 self)
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Cutting plane methods are exact algorithms for integer programming problems. They have proven to be very useful computationally in the last few years, especially when combined with a branch and bound algorithm in a branch and cut framework. These methods work by solving a sequence of linear
Primal cutting plane algorithms revisited
 MATH METH OPER RES (2002) 56:67–81
, 2002
"... Dual fractional cutting plane algorithms, in which cutting planes are used to iteratively tighten a linear relaxation of an integer program, are wellknown and form the basis of the highly successful branchandcut method. It is rather less wellknown that various primal cutting plane algorithms wer ..."
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Cited by 9 (2 self)
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Dual fractional cutting plane algorithms, in which cutting planes are used to iteratively tighten a linear relaxation of an integer program, are wellknown and form the basis of the highly successful branchandcut method. It is rather less wellknown that various primal cutting plane algorithms
Cutting Plane Algorithms for Semidefinite Relaxations
 TOPICS IN SEMIDEFINITE AND INTERIORPOINT METHODS. FIELDS INSTITUTE COMMUNICATIONS SERIES VOL. 18, AMS
, 1997
"... We investigate the potential and limits of interior point based cutting ..."
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Cited by 3 (0 self)
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We investigate the potential and limits of interior point based cutting
A cutting plane algorithm for the maxcut problem
 OPTIMIZATION METHODS AND SOFTWARE
, 1994
"... In this paper we describe a cutting plane algorithm to solve maxcut problems on complete graphs. We show that the separation problem over the cut polytope can be reduced to the separation problem over the cut cone and we give a separation algorithm for a class of inequality valid over the cut con ..."
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Cited by 13 (2 self)
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In this paper we describe a cutting plane algorithm to solve maxcut problems on complete graphs. We show that the separation problem over the cut polytope can be reduced to the separation problem over the cut cone and we give a separation algorithm for a class of inequality valid over the cut
A Primal Analogue of Cutting Plane Algorithms
, 1999
"... This paper deals with algorithmic issues related to the design of an augmentation algorithm for general integer programs. It is shown that every phase of a primal method has a natural analogue in cutting plane algorithms. In particular, the role that the Chv'atalGomory cuts play in cutting pla ..."
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Cited by 6 (3 self)
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This paper deals with algorithmic issues related to the design of an augmentation algorithm for general integer programs. It is shown that every phase of a primal method has a natural analogue in cutting plane algorithms. In particular, the role that the Chv'atalGomory cuts play in cutting
A CUTTING PLANE ALGORITHM FOR A CLUSTERING PROBLEM
, 1989
"... In this paper we consider a clustering problem that arises in qualitative data analysis. This problem can be transformed to a combinatorial optimization problem, the clique partitioning problem. We have studied the latter problem from a polyhedral point of view and determined large classes of facets ..."
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Cited by 54 (1 self)
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of facets of the associated polytope. These theoretical results are utilized in this paper. We describe a cutting plane algorithm that is based on the simplex method and uses exact and heuristic separation routines for some of the classes of facets mentioned before. We discuss some details
Can pure cutting plane algorithms work?
"... We discuss an implementation of the lexicographic version of Gomory’s fractional cutting plane method and of two heuristics mimicking the latter. In computational testing on a battery of MIPLIB problems we compare the performance of these variants with that of the standard Gomory algorithm, both i ..."
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Cited by 2 (0 self)
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We discuss an implementation of the lexicographic version of Gomory’s fractional cutting plane method and of two heuristics mimicking the latter. In computational testing on a battery of MIPLIB problems we compare the performance of these variants with that of the standard Gomory algorithm, both
A fast cuttingplane algorithm for optimal coalescing
 IN PROC. OF THE 16 TH INTERNATIONAL CONFERENCE ON COMPILER CONSTRUCTION (CC ’07
, 2007
"... Recent work has shown that the subtasks of register allocation (spilling, register assignment, and coalescing) can be completely separated. This work presents an algorithm for the coalescing subproblem that relies on this separation. The algorithm uses 0/1 Linear Programming (ILP), a generalpurpo ..."
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Cited by 16 (1 self)
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Recent work has shown that the subtasks of register allocation (spilling, register assignment, and coalescing) can be completely separated. This work presents an algorithm for the coalescing subproblem that relies on this separation. The algorithm uses 0/1 Linear Programming (ILP), a general
A Cutting Plane Algorithm for the Linear Arrangement Problem
, 2007
"... Given a graph G = (V, E) on n vertices, the Minimum Linear Arrangement Problem (MinLA) calls for a onetoone function ψ: V → {1,..., n} which minimizes � {i,j}∈E ψ(i) − ψ(j). MinLA is strongly N Phard and very difficult to solve to optimality in practice. One of the reasons for this difficulty ..."
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is the lack of good lower bounds. In this paper, we take a polyhedral approach to MinLA. We associate an integer polyhedron with each graph G, and derive many classes of valid linear inequalities. It is shown that a cutting plane algorithm based on these inequalities can yield competitive lower bounds in a
A CuttingPlane Algorithm for MinimumTime Trajectory Planning of Industrial Robots
, 1997
"... The optimal minimumtime trajectory planning of an mjoint industrial robot is proposed by means of a newly devised outer cuttingplane algorithm. By using piecewise cubic polynomials in the joint space, this algorithm provides a global solution to the minimum total time planning problem by adoptin ..."
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The optimal minimumtime trajectory planning of an mjoint industrial robot is proposed by means of a newly devised outer cuttingplane algorithm. By using piecewise cubic polynomials in the joint space, this algorithm provides a global solution to the minimum total time planning problem
Results 1  10
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127,085