Alapfogalmak
This paper introduces a novel framework, DexGYSGrasp, that enables robots to generate diverse and high-quality dexterous grasps from natural language instructions, addressing the limitations of previous methods that struggle with intention alignment, diversity, and object penetration.
Kivonat
Bibliographic Information:
Wei, Y.-L., Jiang, J.-J., Xing, C., Tan, X.-T., Wu, X.-M., Li, H., ... & Zheng, W.-S. (2024). Grasp as You Say: Language-guided Dexterous Grasp Generation. Advances in Neural Information Processing Systems, 38.
Research Objective:
This paper aims to address the challenge of enabling robots to perform dexterous grasping based on natural language instructions, a task termed "Dexterous Grasp as You Say" (DexGYS).
Methodology:
The authors propose a two-pronged approach:
- DexGYSNet Dataset: A large-scale dataset of language-guided dexterous grasps is created. This dataset is built cost-effectively by retargeting human hand-object interactions to robotic hands and using a Large Language Model (LLM) to generate corresponding language instructions.
- DexGYSGrasp Framework: This framework decomposes the complex learning process into two progressive objectives:
- Intention and Diversity Grasp Component (IDGC): Learns a grasp distribution focused on aligning with language instructions and generating diverse grasps.
- Quality Grasp Component (QGC): Refines the initially generated grasps to ensure high quality and avoid object penetration.
Key Findings:
- Existing methods struggle to simultaneously achieve intention alignment, grasp diversity, and high quality due to the challenges posed by object penetration loss.
- Decomposing the learning objective and employing progressive components with tailored loss functions significantly improves performance.
- DexGYSGrasp outperforms state-of-the-art methods in generating intention-aligned, diverse, and high-quality dexterous grasps.
Main Conclusions:
The proposed DexGYSGrasp framework, trained on the DexGYSNet dataset, effectively generates dexterous grasps that are consistent with natural language instructions, exhibit high diversity, and maintain high quality by avoiding object penetration.
Significance:
This research significantly advances the field of language-guided robotic manipulation by enabling more natural and intuitive human-robot interaction for dexterous grasping tasks.
Limitations and Future Research:
- The current framework relies on full object point clouds, which might not always be available in real-world scenarios.
- Future research could explore extending the framework to handle dynamic environments and more complex manipulation tasks.
Statisztikák
DexGYSNet dataset comprises 50,000 pairs of high-quality dexterous grasps and their corresponding language guidance, on 1,800 common household objects.
The contact threshold for grasp success in Issac Gym was set to 1 cm.
The penetration threshold for grasp quality was set to 5 mm.
Idézetek
"Enabling robots to perform dexterous grasping based on human language instructions is essential within the robotics and deep learning communities, offering promising applications in industrial production and domestic collaboration scenarios."
"This paper explores a novel task, “Dexterous Grasp as You Say” (DexGYS)"
"the high costs of annotating dexterous pose and the corresponding language guidance, present a barrier for developing and scaling dexterous datasets."
"the demands of generating dexterous grasps that ensure intention alignment, high quality and diversity, present considerable challenges to the model learning."