Secure neural network watermarking protocol against forging attack
Renjie Zhu, Xinpeng Zhang, Mengte Shi, Zhenjun Tang
Abstract
Abstract In order to protect the intellectual property of neural network, an owner may select a set of trigger samples and their corresponding labels to train a network, and prove the ownership by the trigger set without revealing the inner mechanism and parameters of the network. However, if an attacker is allowed to access the neural network, he can forge a matching relationship between fake trigger samples and fake labels to confuse the ownership. In this paper, we propose a novel neural network watermarking protocol against the forging attack. By introducing one-way hash function, the trigger samples used to prove ownership must form a one-way chain, and their labels are also assigned. By this way, an attacker without the right of network training is impossible to construct a chain of trigger samples or the matching relationship between the trigger samples and the assigned labels. Our experiments show that the proposed protocol can resist the watermark forgery without sacrificing the network performance.