Hugo Hadwiger

Hugo Hadwiger in 1973

Hugo Hadwiger (23 December 1908 in Karlsruhe, Germany 29 October 1981 in Bern, Switzerland)[1] was a Swiss mathematician, known for his work in geometry, combinatorics, and cryptography.

Biography

Although born in Karlsruhe, Germany, Hadwiger grew up in Bern, Switzerland.[2] He did his undergraduate studies at the University of Bern, where he majored in mathematics but also studied physics and actuarial science.[2] He continued at Bern for his graduate studies, and received his Ph.D. in 1936 under the supervision of Willy Scherrer.[3] He was for more than forty years a professor of mathematics at Bern.[4]

Mathematical concepts named after Hadwiger

Hadwiger's theorem in integral geometry classifies the possible isotropic measures on compact convex sets in d-dimensional Euclidean space. According to this theorem, any such measure can be expressed as a linear combination of d + 1 fundamental measures; for instance, in two dimensions, there are three possible measures of this type, one corresponding to area, a second corresponding to perimeter, and a third corresponding to the Euler characteristic.[5]

The Hadwiger–Finsler inequality, proven by Hadwiger with Paul Finsler, is an inequality relating the side lengths and area of any triangle in the Euclidean plane.[6] It generalizes Weitzenböck's inequality and was generalized in turn by Pedoe's inequality. In the same 1937 paper in which Hadwiger and Finsler published this inequality, they also published the Finsler–Hadwiger theorem on a square derived from two other squares that share a vertex.

Hadwiger's name is also associated with several important unsolved problems in mathematics:

Other mathematical contributions

Hadwiger proved a theorem characterizing eutactic stars, systems of points in Euclidean space formed by orthogonal projection of higher-dimensional cross polytopes. He found a higher-dimensional generalization of the space-filling Hill tetrahedra.[15] And his 1957 book Vorlesungen über Inhalt, Oberfläche und Isoperimetrie was foundational for the theory of Minkowski functionals, used in mathematical morphology.

Cryptographic work

Hadwiger was one of the principal developers of a Swiss rotor machine for encrypting military communications, known as NEMA. The Swiss, fearing that the Germans and Allies could read messages transmitted on their Enigma cipher machines, enhanced the system by using ten rotors instead of five. The system was used by the Swiss army and air force between 1947 and 1992.[16]

Awards and honors

Asteroid 2151 Hadwiger, discovered in 1977 by Paul Wild, is named after Hadwiger.[4]

The first article in the "Research Problems" section of the American Mathematical Monthly was dedicated by Victor Klee to Hadwiger, on the occasion of his 60th birthday, in honor of Hadwiger's work editing a column on unsolved problems in the journal Elemente der Mathematik.[2]

Selected works

Books

Articles

References

  1. Brüggenthies, Wilhelm; Dick, Wolfgang R. (2005), Biographischer Index der Astronomie, Acta historica astronomiae, 26, Verlag Harri Deutsch, p. 208, ISBN 978-3-8171-1769-7.
  2. 1 2 3 Geometric Tomography, Encyclopedia of Mathematics and its Applications, 58, Cambridge University Press, 2006, pp. 389–390, ISBN 978-0-521-86680-4.
  3. Hugo Hadwiger at the Mathematics Genealogy Project.
  4. 1 2 Schmadel, Lutz D., Dictionary of minor planet names, Springer, 2003, p. 174, ISBN 978-3-540-00238-3.
  5. Klain, Daniel; Rota, Gian-Carlo (1997), Introduction to Geometric Probability, Cambridge University Press.
  6. Finsler, Paul; Hadwiger, Hugo (1937), "Einige Relationen im Dreieck", Commentarii Mathematici Helvetici, 10 (1): 316–326, doi:10.1007/BF01214300.
  7. Hadwiger, Hugo (1943), "Über eine Klassifikation der Streckenkomplexe", Vierteljschr. Naturforsch. Ges. Zürich, 88: 133–143.
  8. Bollobás, B.; Catlin, P. A.; Erdős, Paul (1980), "Hadwiger's conjecture is true for almost every graph" (PDF), European Journal of Combinatorics, 1: 195–199, doi:10.1016/s0195-6698(80)80001-1.
  9. Hadwiger, H. (1957), "Ungelöste Probleme Nr. 20", Elemente der Mathematik, 12: 121.
  10. Boltjansky, V.; Gohberg, I. (1985), "11. Hadwiger's Conjecture", Results and Problems in Combinatorial Geometry, Cambridge University Press, pp. 44–46.
  11. Bezdek, K.; Connelly, R. (2002), "Pushing disks apart – the Kneser-Poulsen conjecture in the plane", Journal für die reine und angewandte Mathematik, 2002 (553): 221–236, arXiv:math/0108098Freely accessible, doi:10.1515/crll.2002.101.
  12. Soifer, Alexander (2008), The Mathematical Coloring Book: Mathematics of Coloring and the Colorful Life of its Creators, New York: Springer, ISBN 978-0-387-74640-1.
  13. Hadwiger, Hugo (1961), "Ungelöste Probleme No. 40", Elem. Math., 16: 103–104.
  14. Hadwiger, Hugo (1945), "Überdeckung des euklidischen Raumes durch kongruente Mengen", Portugal. Math., 4: 238–242.
  15. Hadwiger, H. (1951), "Hillsche Hypertetraeder", Gazeta Matemática (Lisboa), 12 (50): 47–48.
  16. NEMA (Swiss Neue Maschine), Jerry Proc, retrieved 2010-04-18.
  17. Boothby, William M. (1956). "Review: Altes und Neues über konvexe Körper by H. Hadwiger" (PDF). Bull. Amer. Math. Soc. 62 (3): 272–273. doi:10.1090/s0002-9904-1956-10023-2.
  18. Radó, T. (1959). "Review: Vorlesungen über Inhalt, Oberfläche und Isoperimetrie by H. Hadwiger" (PDF). Bull. Amer. Math. Soc. 65 (1): 20. doi:10.1090/s0002-9904-1959-10263-9.
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