Add to ORKGAbstract. We present a novel distributed algorithm for the minimum s-t cut problem, suitable for solving large sparse instances. Assuming vertices of the graph are partitioned into several regions, the algorithm performs path augmentations inside the regions and updates of the push-relabel style between the regions. The interaction between regions is considered expensive (regions are loaded into the memory one-by-one or located on separate machines in a network). The algorithm works in sweeps, which are passes over all regions. Let B be the set of ver-tices incident to inter-region edges of the graph. We present a sequen-tial and parallel versions of the algorithm which terminate in at most 2|B|2 + 1 sweeps. The competing algorithm by Delon...
Graph is a powerful mathematical tool applied in many fields as transportation, communication, infor...
We improve on random sampling techniques for approximately solving problems that involve cuts in gra...
• G = (V,E) is an undirected graph. • A cut (S, T) is a partition of V. • A cut edge is an edge with...
Graph cuts methods are at the core of many state-of-the-art algorithms in computer vision due to the...
We present a universally-optimal distributed algorithm for the exact weighted min-cut. The algorithm...
Maximum-flow problems occur in a wide range of applications. Although already well-studied, they are...
Graph cuts methods are at the core of many state-of-the-art algorithms in computer vision due to the...
The maximum flow problem is a combinatorial problem of significant importance in a wide va-riety of ...
This paper is devoted to the distributed complexity of finding an approximation of the maximum cut (...
Abstract. In this paper, we establish max-flow min-cut theorems for several important classes of mul...
We study the maximum-flow/minimum-cut problem on scale-free networks, i.e., graphs whose degree dist...
This paper is devoted to the distributed complexity of finding an approximation of the maximum cut i...
Abstract—Rapid advances in image acquisition and storage technology underline the need for algorithm...
Computing a maximum cut in undirected and weighted graphs is a well studied problem and has many pra...
In this paper, we present a simple and fast distributed algorithm for approximately solving the mini...
Graph is a powerful mathematical tool applied in many fields as transportation, communication, infor...
We improve on random sampling techniques for approximately solving problems that involve cuts in gra...
• G = (V,E) is an undirected graph. • A cut (S, T) is a partition of V. • A cut edge is an edge with...
Graph cuts methods are at the core of many state-of-the-art algorithms in computer vision due to the...
We present a universally-optimal distributed algorithm for the exact weighted min-cut. The algorithm...
Maximum-flow problems occur in a wide range of applications. Although already well-studied, they are...
Graph cuts methods are at the core of many state-of-the-art algorithms in computer vision due to the...
The maximum flow problem is a combinatorial problem of significant importance in a wide va-riety of ...
This paper is devoted to the distributed complexity of finding an approximation of the maximum cut (...
Abstract. In this paper, we establish max-flow min-cut theorems for several important classes of mul...
We study the maximum-flow/minimum-cut problem on scale-free networks, i.e., graphs whose degree dist...
This paper is devoted to the distributed complexity of finding an approximation of the maximum cut i...
Abstract—Rapid advances in image acquisition and storage technology underline the need for algorithm...
Computing a maximum cut in undirected and weighted graphs is a well studied problem and has many pra...
In this paper, we present a simple and fast distributed algorithm for approximately solving the mini...
Graph is a powerful mathematical tool applied in many fields as transportation, communication, infor...
We improve on random sampling techniques for approximately solving problems that involve cuts in gra...
• G = (V,E) is an undirected graph. • A cut (S, T) is a partition of V. • A cut edge is an edge with...