%0 Conference Paper %1 eger2019variation %A Eger, Florian %A Tempel, Philipp %A Magnanini, Maria Chiara %A Reiff, Colin %A Colledani, Marchello %A Verl, Alexander %B 2019 IEEE International Conference on Industrial Technology (ICIT) %D 2019 %K Modelingsend:unibibliosend:unibibliosend:unibibliosend:unibiblio Null-Fehler-Fertigung, Part Variation isw, %P 1017-1022 %R 10.1109/ICIT.2019.8754964 %T Part Variation Modeling in Multi-Stage Production Systems for Zero-Defect Manufacturing %U https://ieeexplore.ieee.org/document/8754964/ %X Multi-stage production systems concede for low error and failure margins within every single machining and assembly step to not degrade product quality. Especially during multi-stage production of rotating parts, minor defects during a single step can corrupt a workpiece beyond repair. Since multistage production systems are complex, inter-connected chains of machining steps, a global approach to handling and compensating error emergence and propagation is for reaching Zero-Defect Manufacturing indispensable. We introduce Part Variation Modeling within a knowledge capturing platform to monitor centrally gathered metrological data for deviations. Further, a parametric model is presented allowing for description of rotating parts and enabling identification of deviations at every stage. Based on our inter-stage correlation analysis technique, the parametric model enables description of Part Variation Modes of a piece given current machine states and historic deviation likelihood as will be presented.

@inproceedings{eger2019variation, abstract = {Multi-stage production systems concede for low error and failure margins within every single machining and assembly step to not degrade product quality. Especially during multi-stage production of rotating parts, minor defects during a single step can corrupt a workpiece beyond repair. Since multistage production systems are complex, inter-connected chains of machining steps, a global approach to handling and compensating error emergence and propagation is for reaching Zero-Defect Manufacturing indispensable. We introduce Part Variation Modeling within a knowledge capturing platform to monitor centrally gathered metrological data for deviations. Further, a parametric model is presented allowing for description of rotating parts and enabling identification of deviations at every stage. Based on our inter-stage correlation analysis technique, the parametric model enables description of Part Variation Modes of a piece given current machine states and historic deviation likelihood as will be presented.}, added-at = {2019-07-24T14:20:19.000+0200}, author = {Eger, Florian and Tempel, Philipp and Magnanini, Maria Chiara and Reiff, Colin and Colledani, Marchello and Verl, Alexander}, biburl = {https://puma.ub.uni-stuttgart.de/bibtex/23db438f1fb0ad0623233c997926c96af/isw-bibliothek}, booktitle = {2019 IEEE International Conference on Industrial Technology (ICIT)}, doi = {10.1109/ICIT.2019.8754964}, interhash = {c50b1b99f4aac05a22bea84617923420}, intrahash = {3db438f1fb0ad0623233c997926c96af}, issn = {2643-2978}, keywords = {Modelingsend:unibibliosend:unibibliosend:unibibliosend:unibiblio Null-Fehler-Fertigung, Part Variation isw,}, month = {February}, pages = {1017-1022}, timestamp = {2019-07-24T12:26:41.000+0200}, title = {Part Variation Modeling in Multi-Stage Production Systems for Zero-Defect Manufacturing}, url = {https://ieeexplore.ieee.org/document/8754964/}, year = 2019 }