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Andrew Vázsonyi

January 01, 1970

This article is about the mathematician and operations researcher. For the folklorist (1906–1986), see Linda Dégh.

Andrew Vázsonyi (1916–2003), also known as Endre Weiszfeld and Zepartzatt Gozinto) was a Hungarian mathematician and operations researcher. He is known for Weiszfeld's algorithm for minimizing the sum of distances to a set of points, and for founding The Institute of Management Sciences.[1][2][3]

Biography edit

Endre Weiszfeld was born on November 4, 1916, the middle son of a Jewish family in Budapest, where his father was the owner of a shoe store. At age 14, he met and befriended Paul Erdős (his elder by three years), and at age 16, he began working on the geometric median problem for which he would later publish a solution. He studied at the Pázmány Péter Catholic University in Budapest, from which he earned a doctorate in 1936. His thesis, on higher-dimensional surfaces, was supervised by Lipót Fejér. Because of increasing discrimination against Jews in the 1930s and following the lead of his cousin, politician Vilmos Vázsonyi, he changed his name in 1937 to Andrew Vázsonyi. The name comes from that of his father's native town, Nagyvázsony.[1][3][4] During this period, Vázsonyi studied graph theory, working with Erdős on finding necessary and sufficient conditions for an infinite graph to have an Euler tour.[5][6]

In 1938, Vázsonyi was invited by Otto Szász to escape Europe and work with Szász at the University of Cincinnati, but was only able to obtain a one-year student visa. Instead, he traveled to Paris, and finally succeeded in traveling to the US in April 1940, two months before France's fall to the Nazis. He spent a year at a Quaker workshop at Haverford, Pennsylvania, and in 1941 began graduate studies in mechanical engineering at Harvard University, studying there under Richard von Mises with the support of a Gordon McKay Fellowship. He earned an M.S. in 1942 and continued to work at Harvard for Howard Wilson Emmons, studying the design of supersonic aircraft. While at Harvard, he met and married Baroness Laura Vladimirovna Saparova, a musician and immigrant from Georgia whom he had met at Harvard's International Club.[1][3][7]

In 1945, Vázsonyi took US citizenship and left Harvard, working as an engineer for the Elliott Company in Jeannette, Pennsylvania. From there, he moved to southern California, where he worked on missile design for North American Aviation. He moved to the U.S. Naval Ordnance Test Station in 1948, where he headed their missile guidance and control division, and in 1953 moved again to Hughes Aircraft. At Hughes, his interests shifted from aeronautics to management science. He began working on computerization of Hughes' payroll and production lines, and on diagramming parts requirements. His alias "Zepartzatt Gozinto" began during this period, when he visited the RAND Corporation and, during a presentation there, made a joke that was misinterpreted by attendee George Dantzig. Through the 1950s and 1960s, Vázsonyi continued to work on management science problems at several other companies, including the Ramo-Wooldridge Corporation, Roe Alderson, and a second stint at NAA.[1][3][8]

In 1970, Vázsonyi joined the School of Management at the University of Southern California,[9] but he did not get tenure there, and in 1973 he moved to the Graduate School of Business at the University of Rochester. In the late 1970s, threatened with forced retirement at Rochester as he neared age 65,[10] he moved again to St. Mary's University, Texas. He retired in 1987, but continued to teach as an emeritus professor at the University of San Francisco.[1]

Vázsonyi died on November 13, 2003, in Santa Rosa, California.[1] In 2009, a memorial collection of research articles was published in his honor.[11]

Contributions edit

Weiszfeld's algorithm edit

The geometric median of a set of points in the Euclidean plane is the point (not necessarily in the given set) that minimizes the sum of distances to the given points; the solution for three points was first given by Evangelista Torricelli, after being challenged with it by Pierre de Fermat in the 17th century. An algorithm for the more general problem with an arbitrarily large number of points, published by Weiszfeld in 1937,[12] solves this problem numerically using a hill climbing procedure that repeatedly finds a point improving the sum of distances until no more improvements can be made. Each step of this algorithm assigns weights to the points, inversely proportional to the distances to the current solution, and then finds the weighted average of the points, which is the point that minimizes the sum of the squares of the weighted distances. The algorithm has been frequently rediscovered, and although other methods for finding the geometric median are known, Weiszfeld's algorithm is still frequently used due to its simplicity and rapid convergence.[13][14]

Kruskal's tree theorem edit

Kruskal's tree theorem states that, in every infinite set of finite trees, there exists a pair of trees one of which is homeomorphically embedded into the other; another way of stating the same fact is that the homeomorphisms of trees form a well-quasi-ordering. In his 1960 paper giving the first proof of this result, Joseph Kruskal credits it to a conjecture of Vázsonyi.[15] The Robertson–Seymour theorem greatly generalizes this result from trees to graphs.

TIMS and DSI edit

While working in the aerospace industry, Vázsonyi attended meetings of the Operations Research Society of America, but found it to be too remote from the business interests of his employers. In 1953, with William W. Cooper and Mel Salveson, Vázsonyi founded The Institute of Management Sciences; Cooper became the first president of the new society, and Vázsonyi became the first past president (without ever having been president).[1] ORSA and TIMS later merged in 1995 to form the Institute for Operations Research and the Management Sciences.[16]

Vázsonyi also helped found the Decision Sciences Institute, and became a fellow of it.[1]

Books edit

As well as his 2002 autobiography, Which Door Has the Cadillac: Adventures of a Real-Life Mathematician,[17] Vázsonyi was the author of several technical books, including:

  • Scientific programming in business and industry (Wiley, 1963)[18]
  • Problem solving by digital computers with PL/I programming (Prentice-Hall, 1970)
  • Finite mathematics: quantitative analysis for management (Wiley, 1977)[19]
  • Introduction to data processing (R. D. Irwin, 1980)

References edit

  1. ^ a b c d e f g h Gass, Saul I. (February 2004), "In Memoriam Andrew (Andy) Vazsonyi: 1916-2003. Operations research/management science pioneer, educator, researcher, illustrator and author helped shape profession", OR/MS Today.
  2. ^ Vázsonyi, Andrew (2002), Which Door Has the Cadillac: Adventures of a Real-Life Mathematician, Writer's Club Press and iUniverse.
  3. ^ a b c d Veida, Nancy C. (2011), "Andrew Vazsonyi", Profiles in Operations Research, International Series in Operations Research & Management Science, vol. 147, Springer, pp. 273–291, doi:10.1007/978-1-4419-6281-2_15.
  4. ^ Schechter, Bruce (2000), My Brain is Open: The Mathematical Journeys of Paul Erdös, Simon and Schuster, pp. 19–21, ISBN 9780684859804.
  5. ^ Schechter (2000), pp. 73–74.
  6. ^ *Erdős, Pál; Grünwald, Tibor; Weiszfeld, Endre (1936), "Végtelen gráfok Euler vonalairól" [On Euler lines of infinite graphs] (PDF), Mat. Fix. Lapok (in Hungarian), 43: 129–140. Translated as Erdős, P.; Grünwald, T.; Vázsonyi, E. (1938), "Über Euler-Linien unendlicher Graphen" [On Eulerian lines in infinite graphs] (PDF), J. Math. Phys. (in German), 17 (1–4): 59–75, doi:10.1002/sapm193817159.
  7. ^ Vázsonyi (2002), p. 102.
  8. ^ Vázsonyi (2002), p. 206.
  9. ^ Vázsonyi (2002), p. 262. Instead, Gass writes that he joined the University of California.
  10. ^ Vázsonyi (2002), p. 274.
  11. ^ Drezner, Zvi; Plastria, Frank, eds. (2009), Location Analysis in Honor of Andrew Vazsonyi (also known as E. Weiszfeld), Annals of Operations Research, vol. 167, Springer.
  12. ^ Weiszfeld, E. (1937), "Sur le point pour lequel la somme des distances de n points donnes est minimum", Tohoku Mathematical Journal (in French), 43: 355–386. Translated into English and annoted by Plastria, F. (2009), "On the point for which the sum of the distances to n given points is minimum", in Drezner & Plastria (2009), pp. 7–41.
  13. ^ Kuhn, Harold W. (1973), "A note on Fermat's problem", Mathematical Programming, 4 (1): 98–107, doi:10.1007/BF01584648, S2CID 22534094.
  14. ^ Plastria, Frank (2011), "The Weiszfeld algorithm: proof, amendments, and extensions", Foundations of Location Analysis, International Series in Operations Research & Management Science, vol. 155, Springer, pp. 357–389, doi:10.1007/978-1-4419-7572-0_16, ISBN 978-1-4419-7572-0.
  15. ^ Kruskal, J. B. (1960), "Well-quasi-ordering, the tree theorem, and Vazsonyi's conjecture" (PDF), Transactions of the American Mathematical Society, 95 (2): 210–225, doi:10.2307/1993287, JSTOR 1993287, MR 0111704.
  16. ^ Keller, L. Robin; Kirkwood, Craig W. (1999), "The founding of ORMS: A decision analysis perspective" (PDF), Operations Research, 47 (1): 16–28, doi:10.1287/opre.47.1.16.
  17. ^ Review of Which Door Has the Cadillac:
    • Weida, Nancy C. (May–June 2004), Interfaces, 34 (3): 239–240, JSTOR 25062909{{citation}}: CS1 maint: untitled periodical (link)
  18. ^ Reviews of Scientific Programming in Business and Industry:
    • Flood, Merrill M. (December 1958), American Scientist, 46 (4): 358A, JSTOR 27827234{{citation}}: CS1 maint: untitled periodical (link)
    • Graves, Robert L. (December 1958), Journal of the American Statistical Association, 53 (284): 1043–1044, doi:10.2307/2281982, JSTOR 2281982{{citation}}: CS1 maint: untitled periodical (link)
    • E. K. (March 1959), OR, 10 (1): 72–73, doi:10.2307/3007313, JSTOR 3007313{{citation}}: CS1 maint: untitled periodical (link)
    • Dresch, Francis W. (March–April 1959), Operations Research, 7 (2): 261–262, JSTOR 167164{{citation}}: CS1 maint: untitled periodical (link)
    • Spivey, W. Allen (April 1959), Southern Economic Journal, 25 (4): 485–486, doi:10.2307/1055425, JSTOR 1055425{{citation}}: CS1 maint: untitled periodical (link)
    • Schlosser, Robert E. (April 1959), The Accounting Review, 34 (2): 342–343, JSTOR 241993{{citation}}: CS1 maint: untitled periodical (link)
    • Vajda, S. (1959), Biometrika, 46 (1/2 (Jun., 1959): 274, doi:10.2307/2332852, JSTOR 2332852{{citation}}: CS1 maint: untitled periodical (link)
    • Vidale, M. L. (July 1959), Journal of Marketing, 24 (1): 108, doi:10.2307/1249381, JSTOR 1249381{{citation}}: CS1 maint: untitled periodical (link)
    • Hammer, Preston C. (October 1959), The American Mathematical Monthly, 66 (8): 738, doi:10.2307/2309379, JSTOR 2309379{{citation}}: CS1 maint: untitled periodical (link)
    • Wetzel, Wolfgang (1960), Weltwirtschaftliches Archiv, 84: 45–46, JSTOR 40306630{{citation}}: CS1 maint: untitled periodical (link)
    • Starr, Martin K. (July 1960), Management Science, 6 (4): 500–501, JSTOR 2627090{{citation}}: CS1 maint: untitled periodical (link)
    • Künzi, Hans (October 1961), Econometrica, 29 (4): 820–821, doi:10.2307/1911827, JSTOR 1911827{{citation}}: CS1 maint: untitled periodical (link)
  19. ^ Review of Finite Mathematics: Quantitative Analysis for Management:
    • Brambilla, Francesco (September–October 1977), Giornale degli Economisti e Annali di Economia, Nuova Serie, 36 (9/10): 649–650, JSTOR 23244070{{citation}}: CS1 maint: untitled periodical (link)

External resources edit

  • Biography of Andrew Vazsonyi from the Institute for Operations Research and the Management Sciences

January 01, 1970
andrew, vázsonyi, this, article, about, mathematician, operations, researcher, folklorist, 1906, 1986, linda, dégh, 1916, 2003, also, known, endre, weiszfeld, zepartzatt, gozinto, hungarian, mathematician, operations, researcher, known, weiszfeld, algorithm, m. This article is about the mathematician and operations researcher For the folklorist 1906 1986 see Linda Degh Andrew Vazsonyi 1916 2003 also known as Endre Weiszfeld and Zepartzatt Gozinto was a Hungarian mathematician and operations researcher He is known for Weiszfeld s algorithm for minimizing the sum of distances to a set of points and for founding The Institute of Management Sciences 1 2 3 Contents 1 Biography 2 Contributions 2 1 Weiszfeld s algorithm 2 2 Kruskal s tree theorem 2 3 TIMS and DSI 2 4 Books 3 References 4 External resourcesBiography editEndre Weiszfeld was born on November 4 1916 the middle son of a Jewish family in Budapest where his father was the owner of a shoe store At age 14 he met and befriended Paul Erdos his elder by three years and at age 16 he began working on the geometric median problem for which he would later publish a solution He studied at the Pazmany Peter Catholic University in Budapest from which he earned a doctorate in 1936 His thesis on higher dimensional surfaces was supervised by Lipot Fejer Because of increasing discrimination against Jews in the 1930s and following the lead of his cousin politician Vilmos Vazsonyi he changed his name in 1937 to Andrew Vazsonyi The name comes from that of his father s native town Nagyvazsony 1 3 4 During this period Vazsonyi studied graph theory working with Erdos on finding necessary and sufficient conditions for an infinite graph to have an Euler tour 5 6 In 1938 Vazsonyi was invited by Otto Szasz to escape Europe and work with Szasz at the University of Cincinnati but was only able to obtain a one year student visa Instead he traveled to Paris and finally succeeded in traveling to the US in April 1940 two months before France s fall to the Nazis He spent a year at a Quaker workshop at Haverford Pennsylvania and in 1941 began graduate studies in mechanical engineering at Harvard University studying there under Richard von Mises with the support of a Gordon McKay Fellowship He earned an M S in 1942 and continued to work at Harvard for Howard Wilson Emmons studying the design of supersonic aircraft While at Harvard he met and married Baroness Laura Vladimirovna Saparova a musician and immigrant from Georgia whom he had met at Harvard s International Club 1 3 7 In 1945 Vazsonyi took US citizenship and left Harvard working as an engineer for the Elliott Company in Jeannette Pennsylvania From there he moved to southern California where he worked on missile design for North American Aviation He moved to the U S Naval Ordnance Test Station in 1948 where he headed their missile guidance and control division and in 1953 moved again to Hughes Aircraft At Hughes his interests shifted from aeronautics to management science He began working on computerization of Hughes payroll and production lines and on diagramming parts requirements His alias Zepartzatt Gozinto began during this period when he visited the RAND Corporation and during a presentation there made a joke that was misinterpreted by attendee George Dantzig Through the 1950s and 1960s Vazsonyi continued to work on management science problems at several other companies including the Ramo Wooldridge Corporation Roe Alderson and a second stint at NAA 1 3 8 In 1970 Vazsonyi joined the School of Management at the University of Southern California 9 but he did not get tenure there and in 1973 he moved to the Graduate School of Business at the University of Rochester In the late 1970s threatened with forced retirement at Rochester as he neared age 65 10 he moved again to St Mary s University Texas He retired in 1987 but continued to teach as an emeritus professor at the University of San Francisco 1 Vazsonyi died on November 13 2003 in Santa Rosa California 1 In 2009 a memorial collection of research articles was published in his honor 11 Contributions editWeiszfeld s algorithm edit The geometric median of a set of points in the Euclidean plane is the point not necessarily in the given set that minimizes the sum of distances to the given points the solution for three points was first given by Evangelista Torricelli after being challenged with it by Pierre de Fermat in the 17th century An algorithm for the more general problem with an arbitrarily large number of points published by Weiszfeld in 1937 12 solves this problem numerically using a hill climbing procedure that repeatedly finds a point improving the sum of distances until no more improvements can be made Each step of this algorithm assigns weights to the points inversely proportional to the distances to the current solution and then finds the weighted average of the points which is the point that minimizes the sum of the squares of the weighted distances The algorithm has been frequently rediscovered and although other methods for finding the geometric median are known Weiszfeld s algorithm is still frequently used due to its simplicity and rapid convergence 13 14 Kruskal s tree theorem edit Kruskal s tree theorem states that in every infinite set of finite trees there exists a pair of trees one of which is homeomorphically embedded into the other another way of stating the same fact is that the homeomorphisms of trees form a well quasi ordering In his 1960 paper giving the first proof of this result Joseph Kruskal credits it to a conjecture of Vazsonyi 15 The Robertson Seymour theorem greatly generalizes this result from trees to graphs TIMS and DSI edit While working in the aerospace industry Vazsonyi attended meetings of the Operations Research Society of America but found it to be too remote from the business interests of his employers In 1953 with William W Cooper and Mel Salveson Vazsonyi founded The Institute of Management Sciences Cooper became the first president of the new society and Vazsonyi became the first past president without ever having been president 1 ORSA and TIMS later merged in 1995 to form the Institute for Operations Research and the Management Sciences 16 Vazsonyi also helped found the Decision Sciences Institute and became a fellow of it 1 Books edit As well as his 2002 autobiography Which Door Has the Cadillac Adventures of a Real Life Mathematician 17 Vazsonyi was the author of several technical books including Scientific programming in business and industry Wiley 1963 18 Problem solving by digital computers with PL I programming Prentice Hall 1970 Finite mathematics quantitative analysis for management Wiley 1977 19 Introduction to data processing R D Irwin 1980 References edit a b c d e f g h Gass Saul I February 2004 In Memoriam Andrew Andy Vazsonyi 1916 2003 Operations research management science pioneer educator researcher illustrator and author helped shape profession OR MS Today Vazsonyi Andrew 2002 Which Door Has the Cadillac Adventures of a Real Life Mathematician Writer s Club Press and iUniverse a b c d Veida Nancy C 2011 Andrew Vazsonyi Profiles in Operations Research International Series in Operations Research amp Management Science vol 147 Springer pp 273 291 doi 10 1007 978 1 4419 6281 2 15 Schechter Bruce 2000 My Brain is Open The Mathematical Journeys of Paul Erdos Simon and Schuster pp 19 21 ISBN 9780684859804 Schechter 2000 pp 73 74 Erdos Pal Grunwald Tibor Weiszfeld Endre 1936 Vegtelen grafok Euler vonalairol On Euler lines of infinite graphs PDF Mat Fix Lapok in Hungarian 43 129 140 Translated as Erdos P Grunwald T Vazsonyi E 1938 Uber Euler Linien unendlicher Graphen On Eulerian lines in infinite graphs PDF J Math Phys in German 17 1 4 59 75 doi 10 1002 sapm193817159 Vazsonyi 2002 p 102 Vazsonyi 2002 p 206 Vazsonyi 2002 p 262 Instead Gass writes that he joined the University of California Vazsonyi 2002 p 274 Drezner Zvi Plastria Frank eds 2009 Location Analysis in Honor of Andrew Vazsonyi also known as E Weiszfeld Annals of Operations Research vol 167 Springer Weiszfeld E 1937 Sur le point pour lequel la somme des distances de n points donnes est minimum Tohoku Mathematical Journal in French 43 355 386 Translated into English and annoted by Plastria F 2009 On the point for which the sum of the distances to n given points is minimum in Drezner amp Plastria 2009 pp 7 41 Kuhn Harold W 1973 A note on Fermat s problem Mathematical Programming 4 1 98 107 doi 10 1007 BF01584648 S2CID 22534094 Plastria Frank 2011 The Weiszfeld algorithm proof amendments and extensions Foundations of Location Analysis International Series in Operations Research amp Management Science vol 155 Springer pp 357 389 doi 10 1007 978 1 4419 7572 0 16 ISBN 978 1 4419 7572 0 Kruskal J B 1960 Well quasi ordering the tree theorem and Vazsonyi s conjecture PDF Transactions of the American Mathematical Society 95 2 210 225 doi 10 2307 1993287 JSTOR 1993287 MR 0111704 Keller L Robin Kirkwood Craig W 1999 The founding of ORMS A decision analysis perspective PDF Operations Research 47 1 16 28 doi 10 1287 opre 47 1 16 Review of Which Door Has the Cadillac Weida Nancy C May June 2004 Interfaces 34 3 239 240 JSTOR 25062909 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Reviews of Scientific Programming in Business and Industry Flood Merrill M December 1958 American Scientist 46 4 358A JSTOR 27827234 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Graves Robert L December 1958 Journal of the American Statistical Association 53 284 1043 1044 doi 10 2307 2281982 JSTOR 2281982 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link E K March 1959 OR 10 1 72 73 doi 10 2307 3007313 JSTOR 3007313 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Dresch Francis W March April 1959 Operations Research 7 2 261 262 JSTOR 167164 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Spivey W Allen April 1959 Southern Economic Journal 25 4 485 486 doi 10 2307 1055425 JSTOR 1055425 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Schlosser Robert E April 1959 The Accounting Review 34 2 342 343 JSTOR 241993 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Vajda S 1959 Biometrika 46 1 2 Jun 1959 274 doi 10 2307 2332852 JSTOR 2332852 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Vidale M L July 1959 Journal of Marketing 24 1 108 doi 10 2307 1249381 JSTOR 1249381 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Hammer Preston C October 1959 The American Mathematical Monthly 66 8 738 doi 10 2307 2309379 JSTOR 2309379 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Wetzel Wolfgang 1960 Weltwirtschaftliches Archiv 84 45 46 JSTOR 40306630 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Starr Martin K July 1960 Management Science 6 4 500 501 JSTOR 2627090 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Kunzi Hans October 1961 Econometrica 29 4 820 821 doi 10 2307 1911827 JSTOR 1911827 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link Review of Finite Mathematics Quantitative Analysis for Management Brambilla Francesco September October 1977 Giornale degli Economisti e Annali di Economia Nuova Serie 36 9 10 649 650 JSTOR 23244070 a href Template Citation html title Template Citation citation a CS1 maint untitled periodical link External resources editBiography of Andrew Vazsonyi from the Institute for Operations Research and the Management Sciences Retrieved from https en wikipedia org w index php title Andrew Vazsonyi amp oldid 1183627745, wikipedia, wiki, book, books, library,

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