Collected in this volume are most of the important theorems and algorithms currently known for planar graphs, together with constructive proofs for the theorems. Many of the algorithms are written in Pidgin PASCAL, and are the best-known ones; the complexities are linear or 0(nlogn). The first two chapters provide the foundations of graph theoretic notions and algorithmic techniques. The remaining chapters discuss the topics of planarity testing, embedding, drawing, vertex- or edge-coloring, maximum independence set, subgraph listing, planar separator theorem, Hamiltonian cycles, and single- or multicommodity flows. Suitable for a course on algorithms, graph theory, or planar graphs, the volume will also be useful for computer scientists and graph theorists at the research level. An extensive reference section is included.
Author(s): T. Nishizeki and N. Chiba (Eds.)
Series: North-Holland Mathematics Studies 140 / Annals of Discrete Mathematics 32
Publisher: Elsevier Science Ltd
Year: 1988
Language: English
Pages: ii-xiii, 1-232
Content:
Advisory Editors
Page ii
Edited by
Page iii
Copyright page
Page iv
Dedication
Page v
Preface
Pages xi-xii
Takao Nishizeki, Norishige Chiba
Acknowledgments
Page xiii
Chapter 1 Graph Theoretic Foundations
Pages 1-21
Chapter 2 Algorithmic Foundations
Pages 23-32
Chapter 3 Planarity Testing and Embedding
Pages 33-63
Chapter 4 Drawing Planar Graphs
Pages 65-82
Chapter 5 Vertex-Coloring
Pages 83-97
Chapter 6 Edge-Coloring
Pages 99-119
Chapter 7 Independent Vertex Sets
Pages 121-135
Chapter 8 Listing Subgraphs
Pages 137-148
Chapter 9 Planar Separator Theorem
Pages 149-170
Chapter 10 Hamiltonian Cycles
Pages 171-184
Chapter 11 Flows in Planar Graphs
Pages 185-219
References
Pages 221-226
Index
Pages 227-232
