Automated Process Planning for Sheet Metal Bending Operations
journal contributionposted on 01.01.1998 by S. K. Gupta, David A. Bourne, K. H. Kim, S. S. Khrishnan
Any type of content formally published in an academic journal, usually following a peer-review process.
In this paper, we describe a generative process planning system for robotic sheet metal bending press-brakes. This process planning system employs a distributed plan- ning architecture. Currently, our system consists of a central operation planner and three specialized domain specific planners: tooling, grasping, and moving. The central operation planner proposes various alternative partial sequences and each specialized planner evaluates them based on its objective function. The central operation planner uses state-space search techniques to optimize the operation sequence. Once a CAD design is given for a new part, the system automatically determines: the operation sequence, the tools and robot grippers needed, the tool layout, the grasp positions, the gage and the robot motion plans for making the part. The distributed architecture allows us to develop an open-architecture environment for doing generative process planning and encapsulate the specialized knowledge in specialized planners.