English

Point-PRC: A Prompt Learning Based Regulation Framework for Generalizable Point Cloud Analysis

Computer Vision and Pattern Recognition 2025-01-17 v3

Abstract

This paper investigates the 3D domain generalization (3DDG) ability of large 3D models based on prevalent prompt learning. Recent works demonstrate the performances of 3D point cloud recognition can be boosted remarkably by parameter-efficient prompt tuning. However, we observe that the improvement on downstream tasks comes at the expense of a severe drop in 3D domain generalization. To resolve this challenge, we present a comprehensive regulation framework that allows the learnable prompts to actively interact with the well-learned general knowledge in large 3D models to maintain good generalization. Specifically, the proposed framework imposes multiple explicit constraints on the prompt learning trajectory by maximizing the mutual agreement between task-specific predictions and task-agnostic knowledge. We design the regulation framework as a plug-and-play module to embed into existing representative large 3D models. Surprisingly, our method not only realizes consistently increasing generalization ability but also enhances task-specific 3D recognition performances across various 3DDG benchmarks by a clear margin. Considering the lack of study and evaluation on 3DDG, we also create three new benchmarks, namely base-to-new, cross-dataset and few-shot generalization benchmarks, to enrich the field and inspire future research. Code and benchmarks are available at \url{https://github.com/auniquesun/Point-PRC}.

Keywords

Cite

@article{arxiv.2410.20406,
  title  = {Point-PRC: A Prompt Learning Based Regulation Framework for Generalizable Point Cloud Analysis},
  author = {Hongyu Sun and Qiuhong Ke and Yongcai Wang and Wang Chen and Kang Yang and Deying Li and Jianfei Cai},
  journal= {arXiv preprint arXiv:2410.20406},
  year   = {2025}
}

Comments

5 figures, 14 tables; accepted by NeurIPS 2024

R2 v1 2026-06-28T19:37:04.276Z