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Mikkel Thorup (born 1965) is a Danish computer scientist jointly affiliated at AT&T Labs in Florham Park, New Jersey, USA and at Copenhagen University. He completed his undergraduate education at Technical University of Denmark and his doctoral studies at Oxford University in 1993.〔(Mathematics genealogy project )〕 From 1993 to 1998, he was at University of Copenhagen and from 1998 to 2013 he was at AT&T Labs-Research in New Jersey. Since 2013 he has been at the University of Copenhagen as a Professor and Head of Center for Efficient Algorithms and Data Structures (EADS).〔(Thorup’s personal home page )〕 Thorup's main work is in algorithms and data structures. One of his best-known results is a linear-time algorithm for the single-source shortest paths problem in undirected graphs (Thorup, 1999).〔(Robbins Prize Citation )〕 With Mihai Pătraşcu he has shown that simple tabulation hashing schemes achieve the same or similar performance criteria as hash families that have higher independence in worst case, while permitting speedier implementations.〔(Regan, Tabulation hashing and independence, Gödel’s Lost Letter, April 14, 2012 ), (Fortnow, Complexity year in review, December 29, 2011. )〕 Thorup is the editor of the area algorithm and data structures for Journal of the ACM.〔(JACM editorial board )〕 He also serves on the editorial boards of SIAM Journal on Computing, ACM Transactions on Algorithms, and theTheory of Computing. He has been a fellow of the Association for Computing Machinery since 2005 for his contributions to algorithms and data structures.〔(ACM Fellows web site )〕 He belongs to the Royal Danish Academy of Sciences and Letters since 2006. In 2010 he was bestowed the AT&T Fellows Honor for “outstanding innovation in algorithms, including advanced hashing and sampling techniques applied to AT&T's Internet traffic analysis and speech services.”〔(AT&T profile page for Mikkel Thorup )〕 In 2011 he was co-winner of the David P. Robbins Prize from the Mathematical Association of America for solving, to within a constant factor, the classic problem of stacking blocks on a table to achieve the maximum possible overhang, i.e., reaching out the furthest horizontal distance from the edge of the table. “The papers describe an impressive result in discrete mathematics; the problem is easily understood and the arguments, despite their depth, are easily accessible to any motivated undergraduate.” 〔 == Selected publications == * Announced at FOCS 1997. * Preliminary version published in FOCS 2006, . *. * 2011 MAA Robbins Award. 抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)』 ■ウィキペディアで「Mikkel Thorup」の詳細全文を読む スポンサード リンク
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