%I A001155
%S A001155 0,10,1110,3110,132110,1113122110,311311222110,13211321322110,
%T A001155 1113122113121113222110,31131122211311123113322110,
%U A001155 132113213221133112132123222110
%N A001155 Describe the previous term! (method A - initial term is 0).
%C A001155 Method A = 'frequency' followed by 'digit'-indication.
%D A001155 J. H. Conway, The weird and wonderful chemistry of audioactive decay, 
               in T. M. Cover and Gopinath, eds., Open Problems in Communication 
               and Computation, Springer, NY 1987, pp. 173-188.
%D A001155 S. R. Finch, Mathematical Constants, Cambridge, 2003, pp. 452-455.
%D A001155 I. Vardi, Computational Recreations in Mathematica. Addison-Wesley, Redwood 
               City, CA, 1991, p. 4.
%H A001155 S. R. Finch, <a href="http://algo.inria.fr/bsolve/constant/cnwy/cnwy.html">
               Conway's Constant</a>
%e A001155 E.g. the term after 3110 is obtained by saying "one 3, two 1's, one 0", 
               which gives 132110.
%Y A001155 Cf. A005150, A006751, A006715, A001140, A001141, A001143, A001145, A001151, 
               A001154.
%Y A001155 Cf. A036058.
%Y A001155 Sequence in context: A122230 A138147 A036058 this_sequence A001391 A049064 
               A015026
%Y A001155 Adjacent sequences: A001152 A001153 A001154 this_sequence A001156 A001157 
               A001158
%K A001155 nonn,base,easy,nice
%O A001155 1,2
%A A001155 N. J. A. Sloane (njas(AT)research.att.com).