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Connections in Discrete Mathematics
Many of the best researchers and writers in discrete mathematics come together in a volume inspired by Ron Graham.
Invisible Bicycle
The Invisible Bicycle brings together different insights into the social, cultural and economic history of the bicycle and cycling in historical eras of ubiquitous bicycle use that have remained relatively invisible in bicycle history. It revisits the typical timeline of cycling’s decline in the 1950s and 1960s and the renaissance beginning in the 1970s by bringing forth the large national and local variations, varying uses and images of the bicycle, and different bicycle cultures as well as their historical background and motivations. To understand the role, possibilities and challenges of the bicycle today, it is necessary to know the history that has formed them. Therefore The Invisible Bicycle is recommended also to present-day practitioners and planners of bicycle mobility. Contributors are: Peter Cox, Martin Emanuel, Tiina Männistö-Funk, Timo Myllyntaus, Nicholas Oddy, Harry Oosterhuis, William Steele, Manuel Stoffers, Sue-Yen Tjong Tjin Tai, Frank Veraart.
Representation Theory, Mathematical Physics, and Integrable Systems
Over the course of his distinguished career, Nicolai Reshetikhin has made a number of groundbreaking contributions in several fields, including representation theory, integrable systems, and topology. The chapters in this volume – compiled on the occasion of his 60th birthday – are written by distinguished mathematicians and physicists and pay tribute to his many significant and lasting achievements. Covering the latest developments at the interface of noncommutative algebra, differential and algebraic geometry, and perspectives arising from physics, this volume explores topics such as the development of new and powerful knot invariants, new perspectives on enumerative geometry and strin...
Unsolved Problems in Number Theory
Mathematics is kept alive by the appearance of new, unsolved problems. This book provides a steady supply of easily understood, if not easily solved, problems that can be considered in varying depths by mathematicians at all levels of mathematical maturity. This new edition features lists of references to OEIS, Neal Sloane’s Online Encyclopedia of Integer Sequences, at the end of several of the sections.
On the Shape of a Pure $O$-Sequence
A monomial order ideal is a finite collection X of (monic) monomials such that, whenever M∈X and N divides M, then N∈X. Hence X is a poset, where the partial order is given by divisibility. If all, say t t, maximal monomials of X have the same degree, then X is pure (of type t). A pure O-sequence is the vector, h_=(h0=1,h1,...,he), counting the monomials of X in each degree. Equivalently, pure O-sequences can be characterized as the f-vectors of pure multicomplexes, or, in the language of commutative algebra, as the h h-vectors of monomial Artinian level algebras. Pure O-sequences had their origin in one of the early works of Stanley's in this area, and have since played a significant role in at least three different disciplines: the study of simplicial complexes and their f f-vectors, the theory of level algebras, and the theory of matroids. This monograph is intended to be the first systematic study of the theory of pure O-sequences.
Simplicial Complexes of Graphs
A graph complex is a finite family of graphs closed under deletion of edges. Graph complexes show up naturally in many different areas of mathematics. Identifying each graph with its edge set, one may view a graph complex as a simplicial complex and hence interpret it as a geometric object. This volume examines topological properties of graph complexes, focusing on homotopy type and homology. Many of the proofs are based on Robin Forman's discrete version of Morse theory.
Differential and Symplectic Topology of Knots and Curves
This book presents a collection of papers on two related topics: topology of knots and knot-like objects (such as curves on surfaces) and topology of Legendrian knots and links in 3-dimensional contact manifolds. Featured is the work of international experts in knot theory ("quantum" knot invariants, knot invariants of finite type), in symplectic and contact topology, and in singularity theory. The interplay of diverse methods from these fields makes this volume unique in the study of Legendrian knots and knot-like objects such as wave fronts. A particularly enticing feature of the volume is its international significance. The volume successfully embodies a fine collaborative effort by worldwide experts from Belgium, France, Germany, Israel, Japan, Poland, Russia, Sweden, the UK, and the US.
