Towards modeling variability of products, processes and resources in cyber-physical production systems engineering

Kristof Meixner; Rick Rabiser; Stefan Biffl

doi:10.1145/3307630.3342411

Towards modeling variability of products, processes and resources in cyber-physical production systems engineering

Kristof Meixner
, Rick Rabiser
, Stefan Biffl

Institut für Software Systems Engineering

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

Abstract

Planning and developing Cyber-Physical Production Systems (CPPS) are multi-disciplinary engineering activities that rely on effective and efficient knowledge exchange for better collaboration between engineers of different disciplines. The Product-Process-Resource (PPR) approach allows modeling products produced by industrial processes using specific production resources. In practice, a CPPS manufactures a portfolio of product type variants, i.e., a product line. Therefore, engineers need to create and maintain several PPR models to cover PPR variants and their evolving versions. In this paper, we detail a representative use case, identify challenges for using Variability Modeling (VM) methods to describe and manage PPR variants, and present a first solution approach based on cooperation with domain experts at an industry partner, a system integrator of automation for high-performance CPPS. We conclude that integrating basic variability concepts into PPR models is a promising first step and describe our further research plans to support PPR VM in CPPS.

Originalsprache	Englisch
Titel	Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019
Herausgeber*innen	Carlos Cetina, Oscar Diaz, Laurence Duchien, Marianne Huchard, Rick Rabiser, Camille Salinesi, Christoph Seidl, Xhevahire Ternava, Leopoldo Teixeira, Thomas Thum, Tewfik Ziadi
Erscheinungsort	Paris, France
Verlag	ACM
Seiten	49-56
Seitenumfang	8
ISBN (elektronisch)	9781450366687
DOIs	https://doi.org/10.1145/3307630.3342411
Publikationsstatus	Veröffentlicht - 09 Sep. 2019

Publikationsreihe

Name	ACM International Conference Proceeding Series
Band	B

Wissenschaftszweige

102 Informatik
102022 Softwareentwicklung
102025 Verteilte Systeme

JKU-Schwerpunkte

Digital Transformation

Zugriff auf Dokument

10.1145/3307630.3342411

Andere Dateien und Links

Verknüpfung zur Publikation in Scopus

Christian Doppler Labor für Monitoring and Evolution of Very-Large-Scale Software Systems
Grünbacher, P. (Projektleiter*in)
01.02.2013 → 31.08.2020
Projekt: Geförderte Forschung › CDG - Christian Doppler Forschungsgesellschaft

Dieses zitieren

Meixner, K., Rabiser, R., & Biffl, S. (2019). Towards modeling variability of products, processes and resources in cyber-physical production systems engineering. in C. Cetina, O. Diaz, L. Duchien, M. Huchard, R. Rabiser, C. Salinesi, C. Seidl, X. Ternava, L. Teixeira, T. Thum, & T. Ziadi (Hrsg.), Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019 (S. 49-56). (ACM International Conference Proceeding Series; Band B). ACM. https://doi.org/10.1145/3307630.3342411

Meixner, Kristof ; Rabiser, Rick ; Biffl, Stefan. / Towards modeling variability of products, processes and resources in cyber-physical production systems engineering. Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019. Hrsg. / Carlos Cetina ; Oscar Diaz ; Laurence Duchien ; Marianne Huchard ; Rick Rabiser ; Camille Salinesi ; Christoph Seidl ; Xhevahire Ternava ; Leopoldo Teixeira ; Thomas Thum ; Tewfik Ziadi. Paris, France : ACM, 2019. S. 49-56 (ACM International Conference Proceeding Series).

@inproceedings{8974bdb2193d412b9082943dd7d08000,

title = "Towards modeling variability of products, processes and resources in cyber-physical production systems engineering",

abstract = "Planning and developing Cyber-Physical Production Systems (CPPS) are multi-disciplinary engineering activities that rely on effective and efficient knowledge exchange for better collaboration between engineers of different disciplines. The Product-Process-Resource (PPR) approach allows modeling products produced by industrial processes using specific production resources. In practice, a CPPS manufactures a portfolio of product type variants, i.e., a product line. Therefore, engineers need to create and maintain several PPR models to cover PPR variants and their evolving versions. In this paper, we detail a representative use case, identify challenges for using Variability Modeling (VM) methods to describe and manage PPR variants, and present a first solution approach based on cooperation with domain experts at an industry partner, a system integrator of automation for high-performance CPPS. We conclude that integrating basic variability concepts into PPR models is a promising first step and describe our further research plans to support PPR VM in CPPS.",

author = "Kristof Meixner and Rick Rabiser and Stefan Biffl",

year = "2019",

month = sep,

day = "9",

doi = "10.1145/3307630.3342411",

language = "English",

series = "ACM International Conference Proceeding Series",

publisher = "ACM",

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editor = "Carlos Cetina and Oscar Diaz and Laurence Duchien and Marianne Huchard and Rick Rabiser and Camille Salinesi and Christoph Seidl and Xhevahire Ternava and Leopoldo Teixeira and Thomas Thum and Tewfik Ziadi",

booktitle = "Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019",

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Meixner, K, Rabiser, R & Biffl, S 2019, Towards modeling variability of products, processes and resources in cyber-physical production systems engineering. in C Cetina, O Diaz, L Duchien, M Huchard, R Rabiser, C Salinesi, C Seidl, X Ternava, L Teixeira, T Thum & T Ziadi (Hrsg.), Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019. ACM International Conference Proceeding Series, Bd. B, ACM, Paris, France, S. 49-56. https://doi.org/10.1145/3307630.3342411

Towards modeling variability of products, processes and resources in cyber-physical production systems engineering. / Meixner, Kristof; Rabiser, Rick; Biffl, Stefan.
Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019. Hrsg. / Carlos Cetina; Oscar Diaz; Laurence Duchien; Marianne Huchard; Rick Rabiser; Camille Salinesi; Christoph Seidl; Xhevahire Ternava; Leopoldo Teixeira; Thomas Thum; Tewfik Ziadi. Paris, France: ACM, 2019. S. 49-56 (ACM International Conference Proceeding Series; Band B).

Publikation: Beitrag in Buch/Bericht/Konferenzband › Konferenzbeitrag › Begutachtung

TY - GEN

T1 - Towards modeling variability of products, processes and resources in cyber-physical production systems engineering

AU - Meixner, Kristof

AU - Rabiser, Rick

AU - Biffl, Stefan

PY - 2019/9/9

Y1 - 2019/9/9

N2 - Planning and developing Cyber-Physical Production Systems (CPPS) are multi-disciplinary engineering activities that rely on effective and efficient knowledge exchange for better collaboration between engineers of different disciplines. The Product-Process-Resource (PPR) approach allows modeling products produced by industrial processes using specific production resources. In practice, a CPPS manufactures a portfolio of product type variants, i.e., a product line. Therefore, engineers need to create and maintain several PPR models to cover PPR variants and their evolving versions. In this paper, we detail a representative use case, identify challenges for using Variability Modeling (VM) methods to describe and manage PPR variants, and present a first solution approach based on cooperation with domain experts at an industry partner, a system integrator of automation for high-performance CPPS. We conclude that integrating basic variability concepts into PPR models is a promising first step and describe our further research plans to support PPR VM in CPPS.

AB - Planning and developing Cyber-Physical Production Systems (CPPS) are multi-disciplinary engineering activities that rely on effective and efficient knowledge exchange for better collaboration between engineers of different disciplines. The Product-Process-Resource (PPR) approach allows modeling products produced by industrial processes using specific production resources. In practice, a CPPS manufactures a portfolio of product type variants, i.e., a product line. Therefore, engineers need to create and maintain several PPR models to cover PPR variants and their evolving versions. In this paper, we detail a representative use case, identify challenges for using Variability Modeling (VM) methods to describe and manage PPR variants, and present a first solution approach based on cooperation with domain experts at an industry partner, a system integrator of automation for high-performance CPPS. We conclude that integrating basic variability concepts into PPR models is a promising first step and describe our further research plans to support PPR VM in CPPS.

UR - https://www.scopus.com/pages/publications/85123041976

U2 - 10.1145/3307630.3342411

DO - 10.1145/3307630.3342411

M3 - Conference proceedings

T3 - ACM International Conference Proceeding Series

SP - 49

EP - 56

BT - Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019

A2 - Cetina, Carlos

A2 - Diaz, Oscar

A2 - Duchien, Laurence

A2 - Huchard, Marianne

A2 - Rabiser, Rick

A2 - Salinesi, Camille

A2 - Seidl, Christoph

A2 - Ternava, Xhevahire

A2 - Teixeira, Leopoldo

A2 - Thum, Thomas

A2 - Ziadi, Tewfik

PB - ACM

CY - Paris, France

ER -

Meixner K, Rabiser R, Biffl S. Towards modeling variability of products, processes and resources in cyber-physical production systems engineering. in Cetina C, Diaz O, Duchien L, Huchard M, Rabiser R, Salinesi C, Seidl C, Ternava X, Teixeira L, Thum T, Ziadi T, Hrsg., Second International Workshop on Variability and Evolution of Software-Intensive Systems (VariVolution 2019), collocated with the 23rd International Systems and Software Product Line Conference 2019. Paris, France: ACM. 2019. S. 49-56. (ACM International Conference Proceeding Series). doi: 10.1145/3307630.3342411

Towards modeling variability of products, processes and resources in cyber-physical production systems engineering

Abstract

Publikationsreihe

Wissenschaftszweige

JKU-Schwerpunkte

Zugriff auf Dokument

Andere Dateien und Links

Projekte

Christian Doppler Labor für Monitoring and Evolution of Very-Large-Scale Software Systems

Dieses zitieren