Privacy-preserving data aggregation (DA) in network systems, e.g., Internet of Things (IoT), is a challenging problem, considering the dynamic network topology, limited computing capacity, energy supply of IoT devices, etc. The difficulty is exaggerated when there exist dishonest nodes, and how to ensure privacy, accuracy, and robustness of the DA process against dishonest nodes remains an open issue. Different from the widely investigated cryptographic approaches, in this paper, we address this challenging problem by exploiting the distributed consensus technique. To mitigate the pollution from dishonest nodes, we propose an enhanced secure consensus-based DA (E-SCDA) algorithm that allows neighbors to detect dishonest nodes, and derive the error bound when there are undetectable dishonest nodes. We prove the convergence of the E-SCDA and show that the algorithm can preserve the privacy associated to nodes' initial states. Extensive simulations have shown that the proposed algorithm has a high convergence accuracy and low complexity, even when there exist dishonest nodes in the network.

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error bound computing pollution undetectable dishonest dynamic convergence accuracy complexity data aggregation da distributed consensus technique cryptographic approaches network nodes initial states enhanced secure consensusbased da escda algorithm

Jianping HeLin CaiPeng ChengJianping PanLing Shi,.Distributed Privacy-Preserving Data Aggregation Against Dishonest Nodes in Network Systems. 6 (2),1462-1470.

Jianping HeLin CaiPeng ChengJianping PanLing Shi,"Distributed Privacy-Preserving Data Aggregation Against Dishonest Nodes in Network Systems" 6

Jianping HeLin CaiPeng ChengJianping PanLing Shi,"Distributed Privacy-Preserving Data Aggregation Against Dishonest Nodes in Network Systems"