Enhancing Role-playing Systems through Aggressive Queries: Evaluation and Improvement
This work addresses role alignment deficiencies in role-playing systems for dialogue generation, representing an incremental improvement through adversarial training.
The paper tackled the problem of role-playing LLMs struggling with aggressive queries in boundary scenarios by introducing MORTISE to benchmark them and creating an adversarial dataset (RoleAD) for improvement, resulting in enhanced role alignment with demonstrated generalizability in ordinary scenarios.
The advent of Large Language Models (LLMs) has propelled dialogue generation into new realms, particularly in the field of role-playing systems (RPSs). While enhanced with ordinary role-relevant training dialogues, existing LLM-based RPSs still struggle to align with roles when handling intricate and trapped queries in boundary scenarios. In this paper, we design the Modular ORchestrated Trap-setting Interaction SystEm (MORTISE) to benchmark and improve the role-playing LLMs' performance. MORTISE can produce highly role-relevant aggressive queries through the collaborative effort of multiple LLM-based modules, and formulate corresponding responses to create an adversarial training dataset via a consistent response generator. We select 190 Chinese and English roles to construct aggressive queries to benchmark existing role-playing LLMs. Through comprehensive evaluation, we find that existing models exhibit a general deficiency in role alignment capabilities. We further select 180 of the roles to collect an adversarial training dataset (named RoleAD) and retain the other 10 roles for testing. Experiments on models improved by RoleAD indicate that our adversarial dataset ameliorates this deficiency, with the improvements demonstrating a degree of generalizability in ordinary scenarios.