Ground4Act：利用视觉语言模型，在杂乱无章的环境中协同推动和抓取

IF 4.2 3区计算机科学 Q2 COMPUTER SCIENCE, ARTIFICIAL INTELLIGENCE

Image and Vision Computing Pub Date : 2024-09-18 DOI:10.1016/j.imavis.2024.105280

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引用次数: 0

摘要

机器人技术面临的挑战是，如何让机器人从视觉感知和语言理解过渡到执行抓取和组装物体等任务，在 "看 "和 "听 "到 "做 "之间架起一座桥梁。在这项工作中，我们提出了 Ground4Act，这是一种利用视觉语言模型在杂乱的环境中协同推动和抓取的两阶段方法。在接地阶段，Ground4Act 通过视觉接地从多模态数据中提取目标特征。在行动阶段，它嵌入了一个协同推动和抓取框架，以生成行动的位置和方向。具体来说，我们提出了一种基于 DQN 的强化学习推动策略，它使用 RGBD 图像作为状态空间来确定推动动作的像素级坐标和方向。此外，基于最小二乘法的线性拟合抓取策略将接地阶段的目标掩码作为输入，以实现高效抓取。模拟和实际实验证明了 Ground4Act 的卓越性能。模拟套件、源代码和训练有素的模型将公开发布。

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Ground4Act: Leveraging visual-language model for collaborative pushing and grasping in clutter

The challenge in robotics is to enable robots to transition from visual perception and language understanding to performing tasks such as grasp and assembling objects, bridging the gap between “seeing” and “hearing” to “doing”. In this work, we propose Ground4Act, a two-stage approach for collaborative pushing and grasping in clutter using a visual-language model. In the grounding stage, Ground4Act extracts target features from multi-modal data via visual grounding. In the action stage, it embeds a collaborative pushing and grasping framework to generate the action's position and direction. Specifically, we propose a DQN-based reinforcement learning pushing policy that uses RGBD images as the state space to determine the push action's pixel-level coordinates and direction. Additionally, a least squares-based linear fitting grasping policy takes the target mask from the grounding stage as input to achieve efficient grasp. Simulations and real-world experiments demonstrate Ground4Act's superior performance. The simulation suite, source code, and trained models will be made publicly available.

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来源期刊

Image and Vision Computing 工程技术-工程：电子与电气

CiteScore

8.50

自引率

8.50%

发文量

143

审稿时长

7.8 months

期刊介绍： Image and Vision Computing has as a primary aim the provision of an effective medium of interchange for the results of high quality theoretical and applied research fundamental to all aspects of image interpretation and computer vision. The journal publishes work that proposes new image interpretation and computer vision methodology or addresses the application of such methods to real world scenes. It seeks to strengthen a deeper understanding in the discipline by encouraging the quantitative comparison and performance evaluation of the proposed methodology. The coverage includes: image interpretation, scene modelling, object recognition and tracking, shape analysis, monitoring and surveillance, active vision and robotic systems, SLAM, biologically-inspired computer vision, motion analysis, stereo vision, document image understanding, character and handwritten text recognition, face and gesture recognition, biometrics, vision-based human-computer interaction, human activity and behavior understanding, data fusion from multiple sensor inputs, image databases.