ENJ: Optimizing Noise with Genetic Algorithms to Jailbreak LSMs (2509.11128v1)

Abstract: The widespread application of Large Speech Models (LSMs) has made their security risks increasingly prominent. Traditional speech adversarial attack methods face challenges in balancing effectiveness and stealth. This paper proposes Evolutionary Noise Jailbreak (ENJ), which utilizes a genetic algorithm to transform environmental noise from a passive interference into an actively optimizable attack carrier for jailbreaking LSMs. Through operations such as population initialization, crossover fusion, and probabilistic mutation, this method iteratively evolves a series of audio samples that fuse malicious instructions with background noise. These samples sound like harmless noise to humans but can induce the model to parse and execute harmful commands. Extensive experiments on multiple mainstream speech models show that ENJ's attack effectiveness is significantly superior to existing baseline methods. This research reveals the dual role of noise in speech security and provides new critical insights for model security defense in complex acoustic environments.