TY - JOUR
T1 - Centurio.work - Industry 4.0 Integration Assessment and Evolution
AU - Mangler, Juergen
AU - Pauker, Florian
AU - Rinderle-Ma, Stefanie
AU - Ehrendorfer, Mathias
N1 - Publisher Copyright:
© 2019 CEUR-WS. All rights reserved.
PY - 2019
Y1 - 2019
N2 - The introduction of Cyber-physical Systems (CPS) in the manufacturing domain leads to new concepts of how things such as machines can interact. While on the traditional shop-floor the communication is restricted by the strict concepts of the automation pyramid, in CPS everything can be connected to everything. While the connections between machines, computing resources and UIs (humans) can be explicit (i.e., semi hard-coded connections of components through a service bus), the alternative is a context of how things are connected, in order to foster maintainability and understandability as well as to enforce the notion of a loosely coupled system. Therefore, the Workflow Systems and Technology Group of the University of Vienna in cooperation with the CDP GmbH is developing a process-based framework utilizing the BPMN notation for orchestration and control of manufacturing use-cases. This submission focuses on a 4-step integration approach which is intended to allow small and medium companies a defined evolution towards flexible and reliable digitalization and automation, utilizing BPM technology. In order to explain the ideas behind our approach, we present a real-world scenario realizing the interaction between a lathe, a robot and a loading station for an autonomous transport system, which is common for our partners and customers.
AB - The introduction of Cyber-physical Systems (CPS) in the manufacturing domain leads to new concepts of how things such as machines can interact. While on the traditional shop-floor the communication is restricted by the strict concepts of the automation pyramid, in CPS everything can be connected to everything. While the connections between machines, computing resources and UIs (humans) can be explicit (i.e., semi hard-coded connections of components through a service bus), the alternative is a context of how things are connected, in order to foster maintainability and understandability as well as to enforce the notion of a loosely coupled system. Therefore, the Workflow Systems and Technology Group of the University of Vienna in cooperation with the CDP GmbH is developing a process-based framework utilizing the BPMN notation for orchestration and control of manufacturing use-cases. This submission focuses on a 4-step integration approach which is intended to allow small and medium companies a defined evolution towards flexible and reliable digitalization and automation, utilizing BPM technology. In order to explain the ideas behind our approach, we present a real-world scenario realizing the interaction between a lathe, a robot and a loading station for an autonomous transport system, which is common for our partners and customers.
UR - http://www.scopus.com/inward/record.url?scp=85071389003&partnerID=8YFLogxK
M3 - Conference article
AN - SCOPUS:85071389003
SN - 1613-0073
VL - 2428
SP - 106
EP - 117
JO - CEUR Workshop Proceedings
JF - CEUR Workshop Proceedings
T2 - 2019 Industry Forum at Business Process Management, BPM 2019 IF
Y2 - 1 September 2019 through 6 September 2019
ER -