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＜電子ブック＞
Lattices and Codes : A Course Partially Based on Lectures by F. Hirzebruch / by Wolfgang Ebeling
(Advanced Lectures in Mathematics. ISSN:25127039)

版	1st ed. 1994.
出版者	(Wiesbaden : Vieweg+Teubner Verlag : Imprint: Vieweg+Teubner Verlag)
出版年	1994
大きさ	XVI, 178 p. 3 illus : online resource
著者標目	*Ebeling, Wolfgang author SpringerLink (Online service)
件　名	LCSH:Engineering FREE:Technology and Engineering
一般注記	1 Lattices and Codes -- 1.1 Lattices -- 1.2 Codes -- 1.3 From Codes to Lattices -- 1.4 Root Lattices -- 1.5 Highest Root and Weyl Vector -- 2 Theta Functions and Weight Enumerators -- 2.1 The Theta Function of a Lattice -- 2.2 Modular Forms -- 2.3 The Poisson Summation Formula -- 2.4 Theta Functions as Modular Forms -- 2.5 The Eisenstein Series -- 2.6 The Algebra of Modular Forms -- 2.7 The Weight Enumerator of a Code -- 2.8 The Golay Code and the Leech Lattice -- 2.9 The MacWilliams Identity and Gleason’s Theorem -- 2.10 Quadratic Residue Codes -- 3 Even Unimodular Lattices -- 3.1 Theta Functions with Spherical Coefficients -- 3.2 Root Systems in Even Unimodular Lattices -- 3.3 Overlattices and Codes -- 3.4 The Classification of Even Unimodular Lattices of Dimension 24 -- 4 The Leech Lattice -- 4.1 The Uniqueness of the Leech Lattice -- 4.2 The Sphere Covering Determined by the Leech Lattice -- 4.3 Twenty-Three Constructions of the Leech Lattice -- 4.4 Embedding the Leech Lattice in a Hyperbolic Lattice -- 5 Lattices over Integers of Number Fields and Self-Dual Codes -- 5.1 Lattices over Integers of Cyclotomic Fields -- 5.2 Construction of Lattices from Codes over 𝔽pp -- 5.3 Theta Functions over Number Fields -- 5.4 The Case p = 3: Ternary Codes -- 5.5 The Equation of the Tetrahedron and the Cube -- 5.6 The Case p = 5: the Icosahedral Group -- 5.7 Theta Functions as Hubert Modular Forms (by N.-P. Skoruppa) The purpose of coding theory is the design of efficient systems for the transmission of information. The mathematical treatment leads to certain finite structures: the error-correcting codes. Surprisingly problems which are interesting for the design of codes turn out to be closely related to problems studied partly earlier and independently in pure mathematics. This book is about an example of such a connection: the relation between codes and lattices. Lattices are studied in number theory and in the geometry of numbers. Many problems about codes have their counterpart in problems about lattices and sphere packings. We give a detailed introduction to these relations including recent results of G. van der Geer and F. Hirzebruch. Let us explain the history of this book. In [LPS82] J. S. Leon, V. Pless, and N. J. A. Sloane considered the Lee weight enumerators of self-dual codes over the prime field of characteristic 5. They wrote in the introduction to their paper: "The weight enumerator of anyone of the codes . . . is strongly constrained: it must be invariant under a three-dimensional representation of the icosahedral group. These invariants were already known to Felix Klein, and the consequences for coding theory were discovered by Gleason and Pierce (and independently by the third author) . . . (It is worth mentioning that precisely the same invariants have recently been studied by Hirzebruch in connection with cusps of the Hilbert modular surface associated with Q( J5) HTTP:URL=https://doi.org/10.1007/978-3-322-96879-1

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