来源:软件工程学院

7月1日 :Jia Pan(可信计算论坛)

来源:华东师范大学软件工程学院发布时间:2015-07-01浏览次数:5585

报告题目 : Robotic Manipulation Leveraging Plane Contacts

报告人:Jia Pan Assistant Professor

主持人:张新宇 副教授

报告时间:2015年7月1日 13:30

报告地点:中北校区数学馆201

 

 

报告摘要:
       General robotic manipulation is challenging. To successfully manipulate an object, the robot must first accurately estimate the object's pose from the sensor data, and then find a good grasp of the  object via grasp planning, and finally use motion planning to compute a trajectory to approach the object. In some cases, the manipulation cannot be achieved in a single grasp due to cluttered environments or kinematics singularities, and regrasping is necessary for these cases. All these components of manipulation, including pose estimation, grasp planning, motion planning, and regrasp planning, can be difficult to solve.
       In this talk, we will discuss about how to use plane contacts to tackle some of challenges in robotic manipulation.
       The first part is about pose estimation. We present a new approach which effectively estimates the target object's pose given its partial observation, by leveraging two facts: 1) in most manipulation scenarios, the object is posed in a stable pose sitting on flat support surfaces, and 2) many household objects can only keep stable on a planar surface under a small set of poses. In this way, we can reduce the 6-dimensional search of pose estimation into a set of 3-dimensional search problem, and thus greatly improve the accuracy and efficiency of the estimated pose.
       The second part is about regrasping. Similar to previous work, we use one intermediate location for the temporary placement between two pickups. However, unlike previous work which assumed this intermediate location to be horizontal, we show that a tilted surface can improve the object's stability and manipulability while being regrasped, and thus increase the flexibility of regrasping.
报告人简介:
       Jia Pan is a Research Assistant Professor in the Department of Computer Science, the University of Hong Kong. His research area is intelligent grasping and manipulation, including motion planning, deformable object manipulation, learning from demonstration, reinforcement learning and planning with uncertainty.