Graph-Theoretic Concepts in Computer Science

TRAMA

The aim of this workshop series is to contribute to integration in computer science by applying graph-theoretic concepts. Commonalities between various fields of specialization in computer science may be detected by applying graph-theoretic concepts. The workshops are unusual in that they combine theoretical aspects with practice and applications. Applications dealt with in this volume include the use of graph-theoretic concepts in distributed and parallel computation, VLSI, CAD, software engineering, computer graphics, data structures, and computational geometry.

SOMMARIO

Disjoint paths in the hypercube.- Time bounds for broadcasting in bounded degree graphs.- t/s-Diagnosable systems: A characterization and diagnosis algorithm.- Toward a complete representation of graphoids in graphs — Abridged Version.- CADULA — A graph-based model for monitoring CAD-processes.- On hyperedge replacement and BNLC graph grammars.- Graph rewriting systems with priorities.- Filtering hyperedge-replacement languages through compatible properties.- Describing distributed systems by categorical graph grammars.- A parser for context free plex grammars.- to PROGRESS, an attribute graph grammar based specification language.- On the complexity of optimal drawings of graphs.- Bounds to the page number of partially ordered sets.- Beyond Steiner's problem: A VLSI oriented generalization.- A fast sequential and parallel algorithm for the computation of the k-closure of a graph.- On feedback problems in digraphs.- Improved self-reduction algorithms for graphs with bounded treewidth.- Finding a minimal transitive reduction in a strongly connected digraph within linear time.- Paging binary trees with external balancing.- The complexity of graph problems for succinctly represented graphs.- An O(n log n) algorithm for 1-D tile compaction.- Weighted parallel triangulation of simple polygons.- Implementing data structures on a hypercube multiprocessor, and applications in parallel computational geometry.- k — Nearest — Neighbor Voronoi diagrams for sets of convex polygons, line segments and points.- Finding squares and rectangles in sets of points.- Combinatorial properties of abstract Voronoi diagrams.

ALTRE INFORMAZIONI

• Condizione: Nuovo
• ISBN: 9783540522928
• Collana: Lecture Notes in Computer Science
• Dimensioni: 233 x 155 mm
• Formato: Brossura
• Illustration Notes: XI, 377 p.
• Pagine Arabe: 377
• Pagine Romane: xi