Secure (Multiple) Key-Cast over Networks: Multiple Eavesdropping Nodes

Abstract

We study the secure multiple key-cast problem over noiseless networks under node-based eavesdroppers, where one or more source nodes participate in the generation of distinct secret keys to be shared among designated terminal subsets, while an eavesdropper observing up to nodes, including possibly source nodes, obtains no information about the keys. For the single-source setting, we first consider networks in which every node is d-vertex connected from the source. We show that a secure key rate of d- is achievable for all such networks. We further show that this rate is optimal by exhibiting d-vertex-connected networks whose secure key-cast capacity is at most d-. We next study networks in which only the terminal nodes are d-vertex connected from the source, while other network nodes may not satisfy this connectivity condition and may be partially-connected. We show that secure multiple key-cast remains achievable in the presence of such partially-connected nodes, and derive coding schemes whose rate depends on the minimum network vertex-connectivity from the source and certain additional network properties. Finally, we generalize these results, for both d-vertex-connected networks and networks containing partially-connected nodes, to the multi-source setting; showing that secure multiple key-cast remains achievable even when the eavesdropper may observe all but one of the source nodes.