Zeyu Zhang
Other people with similar names: Zeyu Zhang, Zeyu Zhang, Zeyu Zhang
Unverified author pages with similar names: Zeyu Zhang
2026
From Coarse to Fine: Self-Adaptive Hierarchical Planning for LLM Agents
Haoran Tan | Zeyu Zhang | Chen Ma | Tianze Liu | Quanyu Dai | Xu Chen
Findings of the Association for Computational Linguistics: ACL 2026
Haoran Tan | Zeyu Zhang | Chen Ma | Tianze Liu | Quanyu Dai | Xu Chen
Findings of the Association for Computational Linguistics: ACL 2026
Large language model-based agents have recently emerged as powerful approaches for solving dynamic and multi-step tasks. Most existing agents employ planning mechanisms to guide long-term actions in dynamic environments. However, current planning approaches face a fundamental limitation that they operate at a fixed granularity level. Specifically, they either provide excessive detail for simple tasks or insufficient detail for complex ones, failing to achieve an optimal balance between simplicity and complexity. Drawing inspiration from the principle of progressive refinement in cognitive science, we propose AdaPlan-H, a self-adaptive hierarchical planning mechanism that mimics human planning strategies. Our method initiates with a coarse-grained macro plan and progressively refines it based on task complexity. It generates self-adaptive hierarchical plans tailored to the varying difficulty levels of different tasks, which can be optimized by imitation learning and capability enhancement. Experimental results demonstrate that our method significantly improves task execution success rates while mitigating overthinking at the planning level, providing a flexible and efficient solution for multi-step complex decision-making tasks. To contribute to the community, our code and data will be made publicly available at <https://github.com/import-myself/AHP>.
2025
MemBench: Towards More Comprehensive Evaluation on the Memory of LLM-based Agents
Haoran Tan | Zeyu Zhang | Chen Ma | Xu Chen | Quanyu Dai | Zhenhua Dong
Findings of the Association for Computational Linguistics: ACL 2025
Haoran Tan | Zeyu Zhang | Chen Ma | Xu Chen | Quanyu Dai | Zhenhua Dong
Findings of the Association for Computational Linguistics: ACL 2025
Recent works have highlighted the significance of memory mechanisms in LLM-based agents, which enable them to store observed information and adapt to dynamic environments. However, evaluating their memory capabilities still remains challenges. Previous evaluations are commonly limited by the diversity of memory levels and interactive scenarios. They also lack comprehensive metrics to reflect the memory capabilities from multiple aspects. To address these problems, in this paper, we construct a more comprehensive dataset and benchmark to evaluate the memory capability of LLM-based agents. Our dataset incorporates factual memory and reflective memory as different levels, and proposes participation and observation as various interactive scenarios. Based on our dataset, we present a benchmark, named MemBench, to evaluate the memory capability of LLM-based agents from multiple aspects, including their effectiveness, efficiency, and capacity. To benefit the research community, we release our dataset and project at https://github.com/import-myself/Membench.