Tiling and Discrete Geometry
Pavages et géométrie discrète
September 2017  February 2018
Pavages et géométrie discrète
September 2017  February 2018
THEMES
The main purpose of this project is to study selfinducing systems and their generalizations from many different point of views and to increase research interactions among discrete geometry, number theory, fractal geometry, theoretical computer science and dynamical systems. The basic examples, substitution dynamical systems, are symbolic codings of selfinducing system with bounded return time, with long history.
Poincaré's recurrence theorem tells us that, for a measurepreserving dynamical system in a given probability space, almost every orbit starting in a set of positive measure returns to the set. The induced system is defined by the first return map to this set. A selfinducing system is a system which is conjugate to its induced system. Such a system appears often as periodic points in many number theoretical algorithms, like continued fraction, interval exchange transforms, beta expansion and piecewise isometries. Once a selfinducing structure is found we may give precise description of the orbits, and deduce fruitful number theoretical results; symbolic dynamics can be very useful for this purpose. A very natural generalization of self induced systems consists in a family of dynamical systems such that, for any system in the family, the induced system is again is the family; this leads to the notion of Sadic systems, where the initial system is defined by an infinite sequence of inductions (the self induced case corresponds to a constant sequence). Selfaffine tiling dynamical systems generalize substitutive dynamical systems to higher dimension. They encode selfinducing structure in general dynamical system and work as nice models of systems having additive and multiplicative actions at the same time. They also gives a mathematical model of quasicrystals which exists as real materials. The almost periodicity of the tiling is equivalent to the pure discreteness of the associated tiling dynamical system. The central problem in this area is whether a 1dimensional tiling dynamical system generated by an irreducible Pisot substitution is almost periodic. Further many researchers are interested in to what extent the conjecture could be generalized. This problem has potential applications in quasicrystals, number theory, discrete geometry. In this project, we study selfinducing structures from theoretical side in the conference ‘Tilings and recurrence’ and from algorithm side in ‘Zero entropy systems’. These topics fit very well with local mathematicians in Marseille as well as many leading international experts who will be invited to participate. 
LAUREATES
Shigeki Akiyama is Professor at the Institute of Mathematics of the University of Tsukuba, Japan. A regular organizer of the annual workshop on quasiperiodic tilings at RIMS, he has also spent time as organizer or invited professor on several occasions in France (Paris, Marseille, Strasbourg) but also in Debrecen and at the Chinese University of HongKong.
Pierre Arnoux is Professor at the Institut de Mathématiques de Marseille (I2M) of the University of AixMarseille. He is a member of the Geometry, Dynamics, Arithmetics and Combinatorics team. A former associate professor at Ecole polytechnique, he has been a reviewer for many journals and is very interested in the teaching of mathematics. He has been invited to give graduate courses in Japan, Cambodia, Tunisia, Lebanon, China and Nepal.

SCIENTIFIC PROGRAMME
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Tiling Dynamical System (1720)
Pavages et systèmes dynamiques 20  24 November 2017 
Tilings and Recurrence (1721)
Pavages et récurrence 4  8 December 2017 
Zero Entropy System (1804)
Système d'entropie nulle 27 November  1st December 2017 
Bernoulli Convolutions and Salem Numbers (1805)
23 October  3 November 2017 
Tree Shifts, QuasiSimilarity and their Applications (2122)
516 February 2018 
Guests in residence during the semester
Invités du semestre 
PUBLICATION
This book presents a panorama of recent developments in the theory of tilings and related dynamical systems. It contains an expanded version of courses given in 2017 at the research school associated with the JeanMorlet chair program.
Tilings have been designed, used and studied for centuries in various contexts. This field grew significantly after the discovery of aperiodic selfsimilar tilings in the 60s, linked to the proof of the undecidability of the Domino problem, and was driven futher by Dan Shechtman's discovery of quasicrystals in 1984. Tiling problems establish a bridge between the mutually influential fields of geometry, dynamical systems, aperiodic order, computer science, number theory, algebra and logic. The main properties of tiling dynamical systems are covered, with expositions on recent results in selfsimilarity (and its generalizations, fusions rules and Sadic systems), algebraic developments connected to physics, games and undecidability questions, and the spectrum of substitution tilings. Springer link (whole volume and individual chapters) Product flyer 
VIDEOS
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