In all of the previous chapters, we discussed the possibility of secure transmissions at the physical layer for communication models involving only two legitimate parties and a single eavesdropper. These results generalize in part to situations with more complex communication schemes, additional legitimate parties, or additional eavesdroppers. Because of the increased complexity of these “multi-user” channel models, the results one can hope to obtain are, in general, not as precise as the ones obtained in earlier chapters. In particular, it becomes seldom possible to obtain a single-letter characterization of the secrecy capacity and one must often resort to the calculation of upper and lower bounds. Nevertheless, the analysis of multi-user communication channels still provides useful insight into the design of secure communication schemes; in particular it highlights several characteristics of secure communications, most notably the importance of cooperation, feedback, and interference. Although these aspects have been studied extensively in the context of reliable communications and are now reasonably well understood, they do not necessarily affect secure communications in the same way as they affect reliable communications. For instance, while it is well known that cooperation among transmitters is beneficial and improves reliability, the fact that interference is also helpful for secrecy is perhaps counter-intuitive.

There are numerous variations of multi-user channel models with secrecy constraints; rather than enumerating them all, we study the problem of secure communication over a two-way Gaussian wiretap channel.