Homotopy groups and quantitative Sperner-type lemma

Abstract

We consider a generalization of Sperner's lemma for a triangulation T of (m+1)-discs D whose vertices are colored in n+2 colors. A proper coloring of T on the boundary of D determines a simplicial mapping f:Sm Sn and the element x=[f] in πm(Sn). For any x in this homotopy group we define a non-negative integer μ(x). For some cases this invariant can be found explicitly. Namely, if m=n then this number is the Brouwer degree of the mapping f. For the case m=3, n=2 we found a lower bound for μ(x), where x is the Hopf invariant, and proved that μ(1)=μ(2)=9. The main result of this paper is the theorem that the number of fully colored n-simplexes in T is not less than μ([f]). To prove this theorem we use a generalization of Pontryagin's theorem for manifolds with respect to their boundaries.