Publication
Trustworthy UAV Cooperative Localization: Information Analysis of Performance and Security
Zexin Fang; Bin Han; Hans Dieter Schotten
In: IEEE Transactions on Vehicular Technology, Vol. 74, Pages 12997-13012, IEEE, 2025.
Abstract
This paper presents a trustworthy framework for achieving accurate cooperative localization in multiple uncrewed aerial vehicle (UAV) systems. The Cramer-Rao Lower Bound (CRLB) for the Three-dimensional (3D) cooperative localization network is derived, with particular attention given to practical scenarios involving non-uniform spatial distribution of anchor nodes. Challenges of mobility are then addressed with Mobility Adaptive Gradient Descent (MAGD). In the context of system security, we derive the CRLB of localization under the influence of falsified information. The methods and strategies of injecting such information and their impact on system performance are studied. To assure robust performance under falsified data, we propose a mitigation solution named Time-evolving Anomaly Detection (TAD). Furthermore, we model the system performance regarding the density and magnitude of falsified information, focusing on realistic scenarios where the adversary is resource-constrained. With the vulnerability of cooperative localization understood, we apply TAD and formulate an optimization problem from the adversary's perspective. Next, we discuss the design principles of an anomaly-detector, with emphasis of the trade-off of reducing such optimum and system performance. Additionally, we also deploy a Reputation Propagation (RP) mechanism to fully utilize the anomaly detection and further optimize the TAD. Our proposed approaches are demonstrated through numerical simulations.