Broadcast Function Computation with Complementary Side Information

Abstract

We consider the function computation problem in a three node network with one encoder and two decoders. The encoder has access to two correlated sources X and Y. The encoder encodes Xn and Yn into a message which is given to two decoders. Decoder 1 and decoder 2 have access to X and Y respectively, and they want to compute two functions f(X,Y) and g(X,Y) respectively using the encoded message and their respective side information. We want to find the optimum (minimum) encoding rate under the zero error and ε-error (i.e. vanishing error) criteria. For the special case of this problem with f(X,Y) = Y and g(X,Y) = X, we show that the ε-error optimum rate is also achievable with zero error. This result extends to a more general `complementary delivery index coding' problem with arbitrary number of messages and decoders. For other functions, we show that the cut-set bound is achievable under ε-error if X and Y are binary, or if the functions are from a special class of `compatible' functions which includes the case f=g.