Nash equilibrium of multi-agent graphical game with a privacy information encrypted learning algorithm
This paper studies the global Nash equilibrium problem of leader-follower multi-agent dynamics, which yields consensus with a privacy information encrypted learning algorithm. With the secure hierarchical structure, the relationship between the secure consensus problem and global Nash equilibrium is discussed under potential packet loss attacks, and the necessary and sufficient condition for the existence of global Nash equilibrium is provided regarding the soft-constrained graphical game. To achieve the optimal policies, the convergence of decentralized learning algorithm is guaranteed with an iteratively updated pair of decoupled gains. By using the developed quantization scheme and additive-multiplicative property, the encryption-decryption is successfully embedded in the data transmission and computation to overcome the potential privacy violation in unreliable networks. A simulation example is provided to verify the effectiveness of the designed algorithm.
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