A Distributed Multilevel Force-Directed Algorithm

A Multilevel Algorithm for Force-Directed Graph Drawing

A Multilevel Algorithm for Force-Directed Graph-Drawing

We describe a heuristic method for drawing graphs which uses a multilevel framework combined with a force-directed placement algorithm. The multilevel technique matches and coalesces pairs of adjacent vertices to define a new graph and is repeated recursively to create a hierarchy of increasingly coarse graphs, G0, G1, . . . , GL. The coarsest graph, GL, is then given an initial layout and the ...

Efficient, High-Quality Force-Directed Graph Drawing

We propose a graph drawing algorithm that is both efficient and high quality. This algorithm combines a multilevel approach, which effectively overcomes local minimums, with the Barnes and Hut [1] octree technique, which approximates shortand long-range force efficiently. Our numerical results show that the algorithm is comparable in speed to Walshaw’s [2] highly efficient multilevel graph draw...

Dynamic Multilevel Graph Visualization

We adapt multilevel, force-directed graph layout techniques to visualizing dynamic graphs in which vertices and edges are added and removed in an online fashion (i.e., unpredictably). We maintain multiple levels of coarseness using a dynamic, randomized coarsening algorithm. To ensure the vertices follow smooth trajectories, we employ dynamics simulation techniques, treating the vertices as poi...

Drawing Large Graphs with a Potential-Field-Based Multilevel Algorithm

Force-directed graph drawing algorithms are widely used for drawing general graphs. However, these methods do not guarantee a sub-quadratic running time in general. We present a new force-directed method that is based on a combination of an efficient multilevel scheme and a strategy for approximating the repulsive forces in the system by rapidly evaluating potential fields. Given a graph G = (V...