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Eine Systematik zur situationsadäquaten Mechatroniksystementwicklung durch ASD - Agile Systems Design
Publikationstyp
Research Report
Publikationsdatum
2019-03-04
Sprache
German
First published in
Number in series
113
Citation
KIT Scientific Working Papers 113: (2019)
Publisher DOI
Publisher
Karlsruher Institut für Technologie (KIT)
The process of product development is a problem-solving process characterized by the continuous handling of uncertainties by development teams. For this reason, companies in the field of mechatronic system development implement agile approaches in their development processes in order to deal adequately with these uncertainties, which, however, reach their limitations in individual areas due to different characteristics of physical products. In addition, the development processes contain
problems that are of a complicated or simple nature and can therefore be sufficiently planned and solved by plan-driven procedures. For this reason, in the present contribution principles from the literature are derived that support developers in their activities in mechatronic system development. In addition, a model is presented that allows developers to assess the planning stability of individual process elements at different process levels and thereby implement a situation- and demand-oriented degree of agile process elements into the development process.
problems that are of a complicated or simple nature and can therefore be sufficiently planned and solved by plan-driven procedures. For this reason, in the present contribution principles from the literature are derived that support developers in their activities in mechatronic system development. In addition, a model is presented that allows developers to assess the planning stability of individual process elements at different process levels and thereby implement a situation- and demand-oriented degree of agile process elements into the development process.
Schlagworte
Agile product development
ASD - Agile Systems Design
dealing with uncertainties and complexity
mechatronics systems development