Title :
Planning for the manufacturing domain: long-term and reactive scheduling
Author :
Cook, L.K. ; Hinkle, D.A. ; Bickmore, T.W.
Author_Institution :
Lockheed Center for Artificial Intelligence, Palo Alto, CA, USA
Abstract :
The production engineer´s knowledge and reasoning strategies about the composite manufacturing process are similar to that found in a case-based reasoning system. The intent of this paper is to demonstrate how the `cases´ or layout configurations of the production engineer can be utilized in building a more robust and realistic approach to production scheduling. A brief overview is presented of the case-based scheduling architecture. Currently, the case-based scheduler only utilizes a subset of the information available in each case, such as time to cure and amount of layup time (the time needed to hand-form the material onto the mold). However, future versions of the case matcher and scheduler could also use such case information as delta (a numerical index of oven monitoring difficulty) and number of part failures in making choices about case selection and scheduling
Keywords :
expert systems; manufacturing data processing; production control; scheduling; case matcher; case selection; case-based scheduler; composite manufacturing process; expert system; layout configurations; layup time; long term scheduling; moduling; oven monitoring; part failures; planning; production engineering; production scheduling; reactive scheduling; reasoning strategies; time to cure;
Conference_Titel :
Expert Planning Systems, 1991., First International Conference on
Conference_Location :
Brighton
