Glivenko-Cantelli classes and NIP formulas

Abstract

We give several new equivalences of NIP for formulas and new proofs of known results using [T87] and [HOR91]. We emphasize that Keisler measures are more complicated than types (even in NIP context), in an analytic sense. Among other things, we show that, for a first order theory T and formula φ(x,y), the following are equivalent: (i) φ has NIP (for theory T). (ii) For any global φ-type p(x) and any model M, if p is finitely satisfiable in M, then p is generalized DBSC definable over M. In particular, if M is countable, p is DBSC definable over M. (Cf. Definition 3.3, Fact 3.4.) (iii) For any global Keisler φ-measure μ(x) and any model M, if μ is finitely satisfiable in M, then μ is generalized Baire-1/2 definable over M. In particular, if M is countable, p is Baire-1/2 definable over M. (Cf. Definition 3.5.) (iv) For any model M and any Keisler φ-measure μ(x) over M, align* b∈ M|1kΣ1kφ(pi,b)-μ(φ(x,b))| 0 align* for almost every (pi)∈ Sφ(M) N with the product measure μ N. (Cf. Theorem 4.3.) (v) Suppose moreover that T is countable, then for any countable model M, the space of global M-finitely satisfied types/measures is a Rosenthal compactum. (Cf. Theorem A.1.)