Title :
The ICE assembly sequence planner
Author :
Sekine, Yukiko ; Mills, John
Author_Institution :
Martin Marietta Labs., Baltimore, MD, USA
Abstract :
An integrated concurrent engineering (ICE) system is under development which will allow a designer access to assembly, production, and other manufacturing information while a design is being developed, thus ensuring a better product. In addition, the ICE system will automatically generate assembly and robotic task plans and the robot code needed to assemble the product when the design is completed. An automated assembly sequence planner (ASP), a part of the ICE automated assembly design and planning component, has been developed. The ASP takes as input the relationship structure of a product. generates all the physically feasible assembly sequences using a context-free grammar, meta rules, and heuristics, and selects an optimum assembly sequence plan based on user-defined criteria. Compared with human engineers, the ASP can explore alternative assembly sequences more thoroughly, determine the optimum plan more quickly, and produce plans more consistently
Keywords :
CAD; assembling; context-free grammars; knowledge based systems; manufacturing data processing; planning (artificial intelligence); production control; scheduling; assembly; assembly sequence planner; common LISP; context-free grammar; heuristics; integrated concurrent engineering; meta rules; production control; relationship structure; robotic task plans; scheduling; user-defined criteria; Application specific processors; Assembly systems; Concurrent engineering; Humans; Ice; Manufacturing; Product design; Production systems; Robotic assembly; Robotics and automation;
Conference_Titel :
Intelligent Robots and Systems '90. 'Towards a New Frontier of Applications', Proceedings. IROS '90. IEEE International Workshop on
Conference_Location :
Ibaraki
DOI :
10.1109/IROS.1990.262364
