In manufacturing, the interaction between the design of a product and the process to manufacture this product is studied in detail. Consider, for example, material requirements planning (MRP) as part of current enterprise resource planning (ERP) systems, which is mainly driven by the bill of material (BOM). For informationintensive products such as insurances, and many other services, the workflow process typically evolves or is redesigned without careful consideration of the structure and characteristics of the product. In this paper, we present a method named productbased workflow design (PBWD). PBWD takes the product specification and three design criteria as a starting point, after which formal models and techniques are used to derive a favorable new design of the workflow process. The ExSpect tool is used to support PBWD. Finally, using a real case study, we demonstrate that a full evaluation of the search space for a workflow design may be feasible depending on the chosen design criteria and the specific nature of the product specifications.
%0 Journal Article
%1 reijers.2
%A Reijers, Hajo A.
%A Limam, Selma
%A van der Aalst, Wil M. P.
%D 2003
%K PBWD workflow
%N 1
%P 229--262
%T Product-Based Workflow Design
%U http://is.tm.tue.nl/staff/wvdaalst/publications/p194.pdf
%V 20
%X In manufacturing, the interaction between the design of a product and the process to manufacture this product is studied in detail. Consider, for example, material requirements planning (MRP) as part of current enterprise resource planning (ERP) systems, which is mainly driven by the bill of material (BOM). For informationintensive products such as insurances, and many other services, the workflow process typically evolves or is redesigned without careful consideration of the structure and characteristics of the product. In this paper, we present a method named productbased workflow design (PBWD). PBWD takes the product specification and three design criteria as a starting point, after which formal models and techniques are used to derive a favorable new design of the workflow process. The ExSpect tool is used to support PBWD. Finally, using a real case study, we demonstrate that a full evaluation of the search space for a workflow design may be feasible depending on the chosen design criteria and the specific nature of the product specifications.
@article{reijers.2,
abstract = {In manufacturing, the interaction between the design of a product and the process to manufacture this product is studied in detail. Consider, for example, material requirements planning (MRP) as part of current enterprise resource planning (ERP) systems, which is mainly driven by the bill of material (BOM). For informationintensive products such as insurances, and many other services, the workflow process typically evolves or is redesigned without careful consideration of the structure and characteristics of the product. In this paper, we present a method named productbased workflow design (PBWD). PBWD takes the product specification and three design criteria as a starting point, after which formal models and techniques are used to derive a favorable new design of the workflow process. The ExSpect tool is used to support PBWD. Finally, using a real case study, we demonstrate that a full evaluation of the search space for a workflow design may be feasible depending on the chosen design criteria and the specific nature of the product specifications.},
added-at = {2009-07-21T22:35:22.000+0200},
author = {Reijers, Hajo A. and Limam, Selma and van der Aalst, Wil M. P.},
bdsk-url-1 = {http://is.tm.tue.nl/staff/wvdaalst/publications/p194.pdf},
biburl = {https://www.bibsonomy.org/bibtex/27de8ad8451add6c7ebc045ddca368763/hidders},
description = {bibrem upload},
interhash = {e5721e68c82436f10971dec91cfe15f9},
intrahash = {7de8ad8451add6c7ebc045ddca368763},
keywords = {PBWD workflow},
number = 1,
pages = {229--262},
timestamp = {2009-07-31T23:23:27.000+0200},
title = {Product-Based Workflow Design},
url = {http://is.tm.tue.nl/staff/wvdaalst/publications/p194.pdf},
volume = 20,
year = 2003
}