Please use this identifier to cite or link to this item: http://dspace.aiub.edu:8080/jspui/handle/123456789/1878
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dc.contributor.authorMd. Manzurul Hasan, Md. Manzurul Hasan, and Md. Saidur Rahman and Md. Saidur Rahman-
dc.date.accessioned2023-11-12T17:52:14Z-
dc.date.available2023-11-12T17:52:14Z-
dc.date.issued2019-07-21-
dc.identifier.urihttp://dspace.aiub.edu:8080/jspui/handle/123456789/1878-
dc.descriptionA plane graph is a planar graph with a fixed planar embedding in the plane. In an orthogonal drawing of a plane graph each vertex is drawn as a point and each edge is drawn as a sequence of vertical and horizontal line segments. A bend is a point at which the drawing of an edge changes its direction. A necessary and sufficient condition for a plane graph of maximum degree 3 to have a no-bend orthogonal drawing is known which leads to a linear-time algorithm to find such a drawing of a plane graph, if it exists. A planar graph G has a no-bend orthogonal drawing if any of the plane embeddings of G has a no-bend orthogonal drawing. Since a planar graph G of maximum degree 3 may have an exponential number of planar embeddings, determining whether G has a no-bend orthogonal drawing or not using the known algorithm for plane graphs takes exponential time. The best known algorithm takes O(n^2) time for finding a no-bend orthogonal drawing of a biconnected planar graph of maximum degree 3. In this paper we give a linear-time algorithm to determine whether a biconnected planar graph G of maximum degree 3 has a no-bend orthogonal drawing or not and to find such a drawing of G, if it exists. We also give a necessary and sufficient condition for a biconnected planar graph G of maximum degree 3 to have a no-bend “orthogonally convex” drawing D; where any horizontal and vertical line segment connecting two points in a facial polygon P in D lies totally within P. Our condition leads to a linear-time algorithm for finding such a drawing, if it exists.en_US
dc.description.abstractA plane graph is a planar graph with a fixed planar embedding in the plane. In an orthogonal drawing of a plane graph each vertex is drawn as a point and each edge is drawn as a sequence of vertical and horizontal line segments. A bend is a point at which the drawing of an edge changes its direction. A necessary and sufficient condition for a plane graph of maximum degree 3 to have a no-bend orthogonal drawing is known which leads to a linear-time algorithm to find such a drawing of a plane graph, if it exists. A planar graph G has a no-bend orthogonal drawing if any of the plane embeddings of G has a no-bend orthogonal drawing. Since a planar graph G of maximum degree 3 may have an exponential number of planar embeddings, determining whether G has a no-bend orthogonal drawing or not using the known algorithm for plane graphs takes exponential time. The best known algorithm takes O(n^2) time for finding a no-bend orthogonal drawing of a biconnected planar graph of maximum degree 3. In this paper we give a linear-time algorithm to determine whether a biconnected planar graph G of maximum degree 3 has a no-bend orthogonal drawing or not and to find such a drawing of G, if it exists. We also give a necessary and sufficient condition for a biconnected planar graph G of maximum degree 3 to have a no-bend “orthogonally convex” drawing D; where any horizontal and vertical line segment connecting two points in a facial polygon P in D lies totally within P. Our condition leads to a linear-time algorithm for finding such a drawing, if it exists.en_US
dc.language.isoenen_US
dc.publisherIn Proceedings of COCOON 2019: Computing and Combinatorics, Part of the Lecture Notes in Computer Science (LNCS) book series, Springer Nature Switzerlanden_US
dc.subjectOrthogonal drawings, Orthogonally convex drawings, Planar graphsen_US
dc.titleNo-Bend Orthogonal Drawings and No-Bend Orthogonally Convex Drawings of Planar Graphs (Extended Abstract)en_US
dc.typeArticleen_US
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