Variability poses enormous challenges to the manufacturing domain: the demand for highly customized and personalized goods requires bringing a large amount of flexibility to traditional mass production techniques. In particular, when a factory is asked to produce of a new variant of a good, production planning engineers need to manually examine that factory in question, in order to understand whether that new variant can indeed be produced. We call this the "compatibility between the variant and the factory" problem. In this paper, we present a product line-based modelling technique and a tool for assisting production planning engineers in the resolution of this problem.
%0 Conference Paper
%1 BayhaLucioEtAl16VAMOS
%A Bayha, Andreas
%A Lúcio, Levi
%A Aravantinos, Vincent
%A Miyamoto, Kenji
%A Igna, Georgeta
%B Proceedings of the Tenth International Workshop on Variability Modelling of Software-intensive Systems (VaMoS '16), Salvador of Bahia, Brazil
%C New York, NY
%D 2016
%I ACM
%K 01624 acm paper factory engineering plan tool zzz.sfit
%P 57--64
%R 10.1145/2866614.2866623
%T Factory Product Lines: Tackling the Compatibility Problem
%X Variability poses enormous challenges to the manufacturing domain: the demand for highly customized and personalized goods requires bringing a large amount of flexibility to traditional mass production techniques. In particular, when a factory is asked to produce of a new variant of a good, production planning engineers need to manually examine that factory in question, in order to understand whether that new variant can indeed be produced. We call this the "compatibility between the variant and the factory" problem. In this paper, we present a product line-based modelling technique and a tool for assisting production planning engineers in the resolution of this problem.
%@ 978-1-4503-4019-9
@inproceedings{BayhaLucioEtAl16VAMOS,
abstract = {Variability poses enormous challenges to the manufacturing domain: the demand for highly customized and personalized goods requires bringing a large amount of flexibility to traditional mass production techniques. In particular, when a factory is asked to produce of a new variant of a good, production planning engineers need to manually examine that factory in question, in order to understand whether that new variant can indeed be produced. We call this the "compatibility between the variant and the factory" problem. In this paper, we present a product line-based modelling technique and a tool for assisting production planning engineers in the resolution of this problem.},
added-at = {2016-07-25T12:37:17.000+0200},
address = {New York, NY},
author = {Bayha, Andreas and L\'{u}cio, Levi and Aravantinos, Vincent and Miyamoto, Kenji and Igna, Georgeta},
biburl = {https://www.bibsonomy.org/bibtex/2387284b65d367c076505b7261997f6dc/flint63},
booktitle = {Proceedings of the Tenth International Workshop on Variability Modelling of Software-intensive Systems (VaMoS '16), Salvador of Bahia, Brazil},
doi = {10.1145/2866614.2866623},
file = {ACM Digital Library:2016/BayhaLucioEtAl16VAMOS.pdf:PDF},
groups = {public},
interhash = {28b622b31ee954b1f01ed0dda0522646},
intrahash = {387284b65d367c076505b7261997f6dc},
isbn = {978-1-4503-4019-9},
keywords = {01624 acm paper factory engineering plan tool zzz.sfit},
pages = {57--64},
publisher = {ACM},
timestamp = {2017-07-13T18:06:59.000+0200},
title = {Factory Product Lines: Tackling the Compatibility Problem},
username = {flint63},
year = 2016
}