Methods for the localization of supporting slats of laser cutting machines in single images

The supporting slats of laser flatbed machines cause process reliability problems, such as tilted parts colliding with the cutting head. In order to mitigate these problems the position of the supporting points for a part to be cut must be known, before the machines numerical control program can be changed accordingly. Being able to detect the position of supporting slats accurately is necessary to do that. This work compares image processing methods to localize the supporting slats in single images. The best features are based on filters in the frequency domain and can have accuracies above 96 %

DMFC-GraspNet: Differentiable Multi-Fingered Robotic Grasp Generation in Cluttered Scenes

Robotic grasping is a fundamental skill required for object manipulation in robotics. Multi-fingered robotic hands, which mimic the structure of the human hand, can potentially perform complex object manipulation. Nevertheless, current techniques for multi-fingered robotic grasping frequently predict only a single grasp for each inference time, limiting computational efficiency and their versatility, i.e. unimodal grasp distribution. This paper proposes a differentiable multi-fingered grasp generation network (DMFC-GraspNet) with three main contributions to address this challenge. Firstly, a novel neural grasp planner is proposed, which predicts a new grasp representation to enable versatile and dense grasp predictions. Secondly, a scene creation and label mapping method is developed for dense labeling of multi-fingered robotic hands, which allows a dense association of ground truth grasps. Thirdly, we propose to train DMFC-GraspNet end-to-end using using a forward-backward automatic differentiation approach with both a supervised loss and a differentiable collision loss and a generalized Q 1 grasp metric loss. The proposed approach is evaluated using the Shadow Dexterous Hand on Mujoco simulation and ablated by different choices of loss functions. The results demonstrate the effectiveness of the proposed approach in predicting versatile and dense grasps, and in advancing the field of multi-fingered robotic grasping.Comment: Submitted IROS 2023 workshop "Policy Learning in Geometric Spaces