Shinda Huang

Edwin Zhang, Yujie Lu, Shinda Huang et al.

Training generalist agents is difficult across several axes, requiring us to deal with high-dimensional inputs (space), long horizons (time), and generalization to novel tasks. Recent advances with architectures have allowed for improved scaling along one or two of these axes, but are still computationally prohibitive to use. In this paper, we propose to address all three axes by leveraging \textbf{L}anguage to \textbf{C}ontrol \textbf{D}iffusion models as a hierarchical planner conditioned on language (LCD). We effectively and efficiently scale diffusion models for planning in extended temporal, state, and task dimensions to tackle long horizon control problems conditioned on natural language instructions, as a step towards generalist agents. Comparing LCD with other state-of-the-art models on the CALVIN language robotics benchmark finds that LCD outperforms other SOTA methods in multi-task success rates, whilst improving inference speed over other comparable diffusion models by 3.3x~15x. We show that LCD can successfully leverage the unique strength of diffusion models to produce coherent long range plans while addressing their weakness in generating low-level details and control.

Zekun Li, Shinda Huang, Jiangtian Wang et al.

As language agents increasingly automate critical tasks, their ability to follow domain-specific standard operating procedures (SOPs), policies, and constraints when taking actions and making tool calls becomes essential yet remains underexplored. To address this gap, we develop an automated evaluation pipeline SOPBench with: (1) executable environments containing 167 tools/functions across seven customer service domains with service-specific SOPs and rule-based verifiers, (2) an automated test generation framework producing over 900 verified test cases, and (3) an automated evaluation framework to rigorously assess agent adherence from multiple dimensions. Our approach transforms each service-specific SOP code program into a directed graph of executable functions and requires agents to call these functions based on natural language SOP descriptions. The original code serves as oracle rule-based verifiers to assess compliance, reducing reliance on manual annotations and LLM-based evaluations. We evaluate 18 leading models, and results show the task is challenging even for top-tier models (like GPT-4o, Claude-3.7-Sonnet), with variances across domains. Reasoning models like o4-mini-high show superiority while other powerful models perform less effectively (pass rates of 30%-50%), and small models (7B, 8B) perform significantly worse. Additionally, language agents can be easily jailbroken to overlook SOPs and constraints. Code, data, and over 24k agent trajectories are released at https://github.com/Leezekun/SOPBench.