Abstract
As a complex task, robot sorting has become a research hotspot. In order to enable robots to perform simple, efficient, stable and accurate sorting operations for stacked multi-objects in unstructured scenes, a robot multi-object sorting system is built in this paper. Firstly, the training model of rotating target detection is constructed, and the placement state of five common objects in unstructured scenes is collected as the training set for training. The trained model is used to obtain the position, rotation angle and category of the target object. Then, the instance segmentation model is constructed, and the same data set is made, and the instance segmentation network model is trained. Then, the optimized Mask R-CNN instance segmentation network is used to segment the object surface pixels, and the upper surface point cloud is extracted to calculate the normal vector. Then, the angle obtained by the normal vector of the upper surface and the rotation target detection network is fused with the normal vector to obtain the attitude of the object. At the same time, the grasping order is calculated according to the average depth of the surface. Finally, after the obtained object posture, category and grasping sequence are fused, the performance of the rotating target detection network, the instance segmentation network and the robot sorting system are tested on the established experimental platform. Based on this system, this paper carried out an experiment on the success rate of object capture in a single network and an integrated network. The experimental results show that the multi-object sorting system based on deep learning proposed in this paper can sort stacked objects efficiently, accurately and stably in unstructured scenes.
Highlights
The object is segmented by the instance segmentation model, and the normal vector of the object surface is obtained by the principal component analysis techin this section, the object is segmented by the instance segmentation model, and the normal vector of the object surface is obtained by the principal component analysis technology
In order to test the actual effect of rotating target detection network, 2~4 sorting objects are randomly selected and placed on the experimental platform, and the relationship between objects is stacked and separated
A robot multi-objective sorting system based on fusion of rotating target and instance segmentation network is constructed
Summary
In the face of these environments, the robot system needs to identify and locate the target object and needs to understand the whole environment. Many existing methods generally only identify and locate objects in the scene by target detection or template matching, which cannot play a stable sorting effect in the face of a variety of unknown object sorting scenarios with stacking. The configuration between the camera and the robot in this paper belongs to eye-to-hand, that is, the camera is installed in the external fixed position of the robot. In this case, the robot–camera system is linked by four closed chains of Euclidean transformations. The Zhang Zhengyou calibration method is used to calibrate the collected images with good exposure so as to obtain the internal and external reference matrix [28,29,30] of the camera
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