Vadim G. Vizing
Vadim Georgievich Vizing (Russian: Вади́м Гео́ргиевич Визинг, Ukrainian: Вадим Георгійович Візінг; 25 March 1937 – 23 August 2017)[1] was a Soviet and Ukrainian mathematician known for his contributions to graph theory, and especially for Vizing's theorem stating that the edges of any simple graph with maximum degree Δ can be colored with at most Δ + 1 colors.
Biography
[edit]Vizing was born in Kiev on March 25, 1937.[2][3] His mother was half-German, and because of this the Soviet authorities forced his family to move to Siberia in 1947. After completing his undergraduate studies in mathematics in Tomsk State University in 1959, he began his Ph.D. studies at the Steklov Institute of Mathematics in Moscow, on the subject of function approximation, but he left in 1962 without completing his degree.[2] Instead, he returned to Novosibirsk, working from 1962 to 1968 at the Russian Academy of Sciences there and earning a Ph.D. in 1966.[2][4] In Novosibirsk, he was a regular participant in A. A. Zykov's seminar in graph theory.[5] After holding various additional positions, he moved to Odessa in 1974, where he taught mathematics for many years at the Academy for Food Technology[2] (originally known as Одесский технологический институт пищевой промышленности им. М. В. Ломоносова, "Odessa Technological Institute of Food Industry named after Mikhail Lomonosov").
Research results
[edit]The result now known as Vizing's theorem, published in 1964, when Vizing was working in Novosibirsk, states that the edges of any graph with at most Δ edges per vertex can be colored using at most Δ + 1 colors.[V64] It is a continuation of the work of Claude Shannon, who showed that any multigraph can have its edges colored with at most (3/2)Δ colors (a tight bound, as a triangle with Δ/2 edges per side requires this many colors).[6][note 1] Although Vizing's theorem is now standard material in many graph theory textbooks, Vizing had trouble publishing the result initially, and his paper on it appears in an obscure journal, Diskret. Analiz.[note 2]
Vizing also made other contributions to graph theory and graph coloring, including the introduction of list coloring,[V76] the formulation of the total coloring conjecture (still unsolved) stating that the edges and vertices of any graph can together be colored with at most Δ + 2 colors,[V68][note 3] Vizing's conjecture (also unsolved) concerning the domination number of cartesian products of graphs,[V68] and the 1974 definition of the modular product of graphs as a way of reducing subgraph isomorphism problems to finding maximum cliques in graphs.[V74] He also proved a stronger version of Brook's theorem that applies to list coloring.
From 1976, Vizing stopped working on graph theory and studied problems of scheduling instead,[7] only returning to graph theory again in 1995.[2]
Awards
[edit]- Great Silver Medal of the Institute of Mathematics of the Siberian Department of the Russian Academy of Sciences[5]
Selected publications
[edit]V64. |
V68. | Vizing, V. G. (1968), "Some unsolved problems in graph theory", Uspekhi Mat. Nauk (in Russian), 23 (6): 117–134, Bibcode:1968RuMaS..23..125V, doi:10.1070/RM1968v023n06ABEH001252, MR 0240000, S2CID 250848148
|
V74. | Vizing, V. G. (1974), "Reduction of the problem of isomorphism and isomorphic entrance to the task of finding the nondensity of a graph", Proc. 3rd All-Union Conf. Problems of Theoretical Cybernetics, p. 124
|
V76. | Vizing, V. G. (1976), "Vertex colorings with given colors", Diskret. Analiz. (in Russian), 29: 3–10
|
Notes
[edit]- ^ In both Gutin & Toft (2000) and Soifer (2008), Vizing mentions that his work was motivated by Shannon's theorem. For the triangle lower bound example, see e.g. Colorful Mathematics.
- ^ The full name of this journal was Akademiya Nauk SSSR. Sibirskoe Otdelenie. Institut Matematiki. Diskretny˘ı Analiz. Sbornik Trudov. It was renamed Metody Diskretnogo Analiza in 1980 (the name given for it in Gutin & Toft (2000)) and discontinued in 1991 [1].
- ^ In Soifer (2008), Vizing states that he formulated the conjecture in 1964, but by the time it was published in 1968 Behzad had independently posed the same conjecture.
References
[edit]- ^ Borodin, O. V., Памяти В. Г. Визинга [In memory of V. G. Vizing] (in Russian), Sobolev Institute of Mathematics, retrieved 2018-03-10
- ^ a b c d e Gutin, Gregory; Toft, Bjarne (December 2000), "Interview with Vadim G. Vizing" (PDF), European Mathematical Society Newsletter, 38: 22–23
- ^ Soifer, Alexander (2008), The Mathematical Coloring Book, Springer-Verlag, ISBN 978-0-387-74640-1. Pages 136–137 reproduce a 1995 letter from Vizing to Soifer concerning the formulation of the total coloring conjecture, that also includes some biographical detail about Vizing.
- ^ Vadim G. Vizing at the Mathematics Genealogy Project
- ^ a b Mel'nikov, L. S. (2008), "О семинаре Зыкова в Новосибирске" [About Zykov's seminar in Novosibirsk] (PDF), in Kasyanov, V. N. (ed.), Parallel programs construction and optimization (in Russian), A.P. Ershov Institute of Informatics Systems, pp. 164–173
- ^ Shannon, Claude E. (1949), "A theorem on coloring the lines of a network", J. Math. Physics, 28 (1–4): 148–151, doi:10.1002/sapm1949281148, MR 0030203.
- ^ Goldberg, Mark (1983), The development of combinatorics in the USSR: a brief historical and mathematical survey, Delphic Associates, Falls Church, VA, p. 35, MR 0757359,
Vizing has somewhat changed his research interests, from pure graph theory to schedule theory
External links
[edit]- List of recent publications of Vadim Vizing and mathnet.ru