Coding for Interactive Communication - Information Theory, IEEE Transactions on

Let the input to a computation problem be split between two processors connected by a communication link; and let an interactive protocol T be known by which, on any input, the processors can solve the problem using no more than T transmissions of bits between them, provided the channel is noiseless in each direction. We study the following question: If in fact the channel is noisy, what is the effect upon the number of transmissions needed in order to solve the Computation problem reliably? Technologically this concern is motivated by the increasing importance of communication as a resource in computing, and by the tradeoff in communications equipment between bandwidth, reliability, and expense. We treat a model with random channel noise. We describe a deterministic method for simulating noiseless-channel protocols on noisy channels, with only a constant slowdown. This is an analog for general interactive protocols of Shannon’s coding theorem, which deals only with data transmission, i.e., one-way protocols. We cannot use Shannon’s block coding method because the bits exchanged in the protocol are determined only one at a time, dynamically, in the course of the interaction. Instead, we describe a simulation protocol using a new kind of code, explicit tree codes.