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← ICRA 2026

vla for contact rich manipulation

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  1. 100 relevance
    CRAFT: Adapting VLA Models to Contact-Rich Manipulation Via Force-Aware Curriculum Fine-Tuning
    Yike Zhang, Yaonan Wang, Xinxin Sun, Kaizhen Huang, Zhiyuan Xu, Ji Junjie, Zhengping Che, Jian Tang, Kangcheng Liu, Jingtao Sun
    The paper directly addresses the topic by proposing a framework specifically designed to adapt VLA models for contact-rich manipulation.
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  2. 100 relevance
    Audio-VLA: Adding Contact Audio Perception to Vision-Language-Action Model for Robotic Manipulation
    Xiangyi Wei, Haotian Zhang, Xinyi Cao, Siyu Xie, Weifeng Ge, Yang Li, Changbo Wang
    The paper directly proposes a Vision-Language-Action (VLA) model specifically designed to enhance contact-rich manipulation by incorporating audio perception.
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  3. 100 relevance
    FD-VLA: Force-Distilled Vision-Language-Action Model for Contact-Rich Manipulation
    Ruiteng Zhao, Wenshuo Wang, Yicheng Ma, Xiaocong Li, Francis TAY, Marcelo H Ang Jr, Haiyue Zhu
    The paper explicitly focuses on developing a Vision-Language-Action (VLA) model specifically for contact-rich manipulation.
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  4. 100 relevance
    Enhancing VLA Precision in Robotic Manipulation Via FiLM-Based Force/Torque-Vision Integration
    Gunhee Nam, Ayoung Hong
    The paper directly proposes a method to enhance VLA models specifically for contact-rich robotic manipulation tasks using Force/Torque integration.
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  5. 100 relevance
    Learning End-To-End Dexterous Arm-Hand VLA Policies with Shared Autonomy: DexGrasp AI Copilot for Efficient Teleoperation
    Yu Cui, Yujian Zhang, Lina Tao, Yang Li, Xinyu Yi, Zhibin (Alex) Li
    The paper directly addresses the development of an end-to-end VLA policy for dexterous arm-hand manipulation using tactile feedback and force-adaptive actions, which is a core example of contact-rich manipulation.
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  6. 100 relevance
    MLA: A Multisensory Language�Action Model for Multimodal Understanding and Forecasting in Robotic Manipulation
    Zhuoyang Liu, Jiaming Liu, Jiadong XU, Nuowei Han, Chenyang Gu, Hao Chen, kaichen zhou, Renrui Zhang, Kai Chin Hsieh, Kun Wu, Zhengping Che, Jian Tang, Shanghang Zhang
    The paper explicitly focuses on a Multisensory Language-Action model designed specifically to improve complex and contact-rich robotic manipulation by integrating tactile tokens and other sensory modalities.
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  7. 95 relevance
    Dexora: Open-Source VLA for High-DoF Bimanual Dexterity
    Hang Zhao, Pengwei Wang, Shanghang Zhang,, Guocai Yao, Jianyu Chen, Hongyang Li, Hao Zhao
    The paper presents a VLA system specifically designed for high-DoF bimanual dexterity, which is inherently centered on contact-rich manipulation.
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  8. 95 relevance
    NeuroVLA: Surgical Scenario-Aware Learning of Debulking Skills in Endoscopic Robotic Neurosurgery Via Vision-Language-Action Model
    Tat Ming Danny Chan, Hongbin Liu, Renzhi Wang, and Hongliang Ren
    The paper explicitly proposes a Vision-Language-Action (VLA) model for surgical debulking, which inherently involves contact-rich manipulation tasks such as grasping and transferring.
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  9. 90 relevance
    IMPACT: Intelligent Motion Planning with Acceptable Contact Trajectories Via Vision-Language Models
    Yiyang Ling, Karan Owalekar, Oluwatobiloba Adesanya, Erdem Bıyık, Daniel Seita
    The paper directly addresses contact-rich manipulation by leveraging Vision-Language Models (VLMs) to determine acceptable contacts and guide motion planning.
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  10. 85 relevance
    Rethinking the Practicality of Vision-Language-Action Model: A Comprehensive Benchmark and an Improved Baseline
    Wenxuan Song, Jiayi Chen, Xiaoquan Sun, Huashuo Lei, Yikai Qin, wei zhao, Pengxiang Ding, Han Zhao, Tongxin Wang, Pengxu Hou, Zhide Zhong, Haodong Yan, Donglin Wang, Jun Ma, Haoang Li
    The paper directly addresses Vision-Language-Action (VLA) models for various manipulation tasks across different embodiments, which is central to contact-rich manipulation.
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  11. 85 relevance
    DAM-VLA: A Dynamic Action Model-Based Vision-Language-Action Framework for Robot Manipulation
    Xiongfeng Peng, Jiaqian Yu, dingzhe li, Yixiang Jin, Lu Xu, Mao Yamin, Chao Zhang, Weiming Li, Sujin Jang, Dongwook Lee, Daehyun Ji
    The paper presents a VLA framework that explicitly addresses the need for precise manipulation by separating gross arm movement from fine gripper control, which is fundamental for contact-rich tasks.
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  12. 85 relevance
    OmniVLA: Physically-Grounded Multimodal VLA with Unified Multi-Sensor Perception for Robotic Manipulation
    Heyu Guo, Shanmu Wang, Ruichun Ma, Shiqi Jiang, Yasaman Ghasempour, Omid Abari, Baining Guo, Lili Qiu
    The paper proposes a VLA model integrating non-RGB sensors (radar, infrared, audio) which are critical for overcoming visual occlusions and perceiving physical interactions typical of contact-rich manipulation.
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  13. 85 relevance
    ManipForce: Force-Guided Policy Learning with Frequency-Aware Representation for Contact-Rich Manipulation
    Geonhyup Lee, Youngjin Lee, Kangmin Kim, Seongju Lee, Sangjun Noh, Seunghyeok Back, Kyoobin Lee
    The paper directly addresses contact-rich manipulation using a multimodal transformer policy combining vision and force data, although it focuses on Vision-Force-Action rather than incorporating Language.
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  14. 85 relevance
    IVRA: Improving Visual-Token Relations for Robot Action Policy with Training-Free Hint-Based Guidance
    Jongwoo Park, Kanchana Ranasinghe, Jinhyeok Jang, Cristina Mata, Yoo Sung Jang, Michael S. Ryoo
    The paper focuses on improving the spatial understanding of VLA models for precise robotic manipulation across benchmarks like LIBERO, which is highly relevant to the requirements of contact-rich tasks.
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  15. 75 relevance
    AugVLA-3D: Depth-Driven Feature Augmentation for Vision-Language-Action Models
    Zhifeng Rao,∗, Wenlong Chen∗, Lei Xie, Xia Hua, Dongfu Yin, Zhen Tian, F. Richard Yu
    The paper focuses on improving VLA models' spatial understanding via depth augmentation, which is critical for precise robotic manipulation, although it does not explicitly address the tactile or force-feedback aspects typical of 'contact-rich' tasks.
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  16. 75 relevance
    RealMirror: A Comprehensive, Open-Source Vision-Language-Action Platform for Embodied AI
    Cong Tai, Zhaoyu Zheng, Haixu Long, Hansheng Wu, Haodong Xiang, Zhengbin Long, Jun Xiong, Rong Shi, Shizhuang Zhang, Gang Qiu, He Wang, Ruifeng Li, Jun Huang, Bin Chang, Shuai Feng, Tao Shen
    The paper presents a comprehensive VLA platform and benchmark for humanoid robots, which are central to contact-rich manipulation, though it focuses more on the infrastructure and Sim2Real transfer than specific contact-rich techniques.
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  17. 75 relevance
    Goal-VLA: Image-Generative VLMs as Object-Centric World Models Empowering Zero-shot Robot Manipulation
    Haonan Chen, Jingxiang Guo, Bangjun Wang, Tianrui Zhang, Xuchuan Huang, Yiwen Hou, Boren Zheng, Chenrui Tie, Jiajun Deng, Lin Shao
    The paper proposes a VLA framework for robotic manipulation using generative VLMs, but it focuses more on high-level goal generation and spatial reasoning than specifically on contact-rich dynamics.
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  18. 65 relevance
    VLA-Reasoner: Empowering Vision-Language-Action Models with Reasoning Via Online Monte Carlo Tree Search
    wenkai@e.ntu.edu.sg, ziwei.wang@ntu.edu.sg
    The paper focuses on improving VLA performance for long-horizon general robotic manipulation via MCTS and reasoning, but does not explicitly address the specific challenges of contact-rich manipulation such as force control or tactile feedback.
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  19. 45 relevance
    The Better You Learn, the Smarter You Prune: Towards Efficient Vision-Language-Action Models Via Differentiable Token Pruning
    Titong Jiang, Xuefeng Jiang, Yuan Ma, Xin Wen, Bailin Li, Kun Zhan, Peng Jia, Yahui Liu, Sheng Sun, Xianpeng Lang
    While the paper focuses on improving the efficiency of VLA models used in robotic manipulation, it addresses computational overhead rather than the specific physical or control challenges associated with contact-rich manipulation.
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  20. 40 relevance
    IntentionVLA: Generalizable and Efficient Embodied Intention Reasoning for Human�Robot Interaction
    Yandu Chen, Kefan Gu, Yuqing Wen, Yucheng Zhao, Tiancai Wang, Liqiang Nie
    While the paper focuses on VLA models for manipulation and HRI, it emphasizes high-level intention reasoning rather than the low-level physics or control challenges specific to contact-rich manipulation.
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  21. 30 relevance
    EveryDayVLA: A Vision-Language-Action Model for Affordable Robotic Manipulation
    Samarth Chopra, Alexander McMoil, Benjamin Carnovale, Evan Sokolson, Rajkumar Kubendran, Samuel Dickerson
    While the paper discusses Vision-Language-Action (VLA) models for robotic manipulation, it focuses on hardware affordability and general task success rather than the specific challenges of contact-rich manipulation.
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  22. 30 relevance
    ShapeForce: Low-Cost Soft Robotic Wrist for Contact-Rich Manipulation
    Jinxuan Zhu, Zihao Yan, Yangyu Xiao, Jingxiang Guo, Chenrui Tie, Xinyi Cao, Yuhang Zheng, Lin Shao
    The paper focuses on a hardware sensor for contact-rich manipulation but does not mention or utilize Vision-Language-Action (VLA) models.
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  23. 20 relevance
    Exploiting Vulnerabilities: Universal Adversarial Attacks on Vision-Language-Action Models in Robotics
    Songhua Yang, Ziyu Liu, Yuanwei Liu, Xuetao Li, Xuanye Fei, He Huang, Zheng WANG, Miao Li
    While the paper discusses Vision-Language-Action (VLA) models in robotics, its focus is on adversarial security attacks rather than the mechanics or implementation of contact-rich manipulation.
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  24. 10 relevance
    Contact Detection and Manipulation with a Shape-Memory Alloy Based Soft Gripper
    Louis Plottel, Richard Desatnik, Dinesh K. Patel, Philip LeDuc, Carmel Majidi
    While the paper addresses contact-rich manipulation via soft robotics and sensing, it does not involve Vision-Language-Action (VLA) models or AI-driven policy learning.
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  25. 10 relevance
    VSL-Skin: Individually Addressable Phase-Change Voxel Skin for Variable-Stiffness and Virtual Joints Bridging Soft and Rigid Robots
    Zihan Oliver Zeng, JIAJUN AN, Preston Luk, Upinder Kaur
    The paper focuses on hardware materials for variable stiffness and morphological control, whereas the topic of interest is high-level Vision-Language-Action (VLA) models.
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