Co-location specification for IoT-aware collaborative business processes

Paul Grefen, N. Brouns, Heiko Ludwig, E. Serral Asensio

Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

Uittreksel

Technologies from the Internet of Things (IoT) create new possibilities to directly connect physical processes in the ‘real’ world to digital business processes in the administrative world. Objects manipulated in the real world (the ‘things’ of IoT) can directly provide data to digital processes, and these processes can directly influence the behavior of the objects. An increasing body of work exists on specifying and executing the interface between the physical and the digital worlds for individual objects. But many real-life business scenarios require that the handling of multiple physical objects is synchronized by digital processes. An example is the cross-docking of sea containers at ports: here we have containers, ships, cranes and trucks that are all ‘things’ in the IoT sense. Cross-docking processes only work when these ‘things’ are properly co-located in time and space. Therefore, we propose an approach to specify this co-location in multi-actor, IoT-aware business process models, based on the concept of spheres. We discuss consistency checking between co-location spheres and illustrate our approach with container cross-docking processes.
TaalEngels
TitelInformation Systems Engineering in Responsible Information Systems. CAiSE 2019.
RedacteurenC. Cappiello, M. Ruiz
Plaats van productieCham
UitgeverijSpringer
Pagina's120-132
Aantal pagina's13
ISBN van elektronische versie978-3-030-21297-1
ISBN van geprinte versie978-3-030-21296-4
DOI's
StatusGepubliceerd - 2019
Evenement31st International Conference on Advanced Information Systems Engineering -
Duur: 3 jun 2019 → …

Publicatie series

NaamLecture Notes in Business Information Processing
UitgeverijSpringer
Volume350

Congres

Congres31st International Conference on Advanced Information Systems Engineering
Verkorte titelCAiSE 2019
Periode3/06/19 → …

Vingerafdruk

Specifications
Containers
Ship cranes
Industry
Trucks
Internet of things

Trefwoorden

    Citeer dit

    Grefen, P., Brouns, N., Ludwig, H., & Serral Asensio, E. (2019). Co-location specification for IoT-aware collaborative business processes. In C. Cappiello, & M. Ruiz (editors), Information Systems Engineering in Responsible Information Systems. CAiSE 2019. (blz. 120-132). (Lecture Notes in Business Information Processing; Vol. 350). Cham: Springer. DOI: 10.1007/978-3-030-21297-1_11
    Grefen, Paul ; Brouns, N. ; Ludwig, Heiko ; Serral Asensio, E./ Co-location specification for IoT-aware collaborative business processes. Information Systems Engineering in Responsible Information Systems. CAiSE 2019.. redacteur / C. Cappiello ; M. Ruiz. Cham : Springer, 2019. blz. 120-132 (Lecture Notes in Business Information Processing).
    @inproceedings{33f63d07bcaf47f08b8d75755ff7884f,
    title = "Co-location specification for IoT-aware collaborative business processes",
    abstract = "Technologies from the Internet of Things (IoT) create new possibilities to directly connect physical processes in the ‘real’ world to digital business processes in the administrative world. Objects manipulated in the real world (the ‘things’ of IoT) can directly provide data to digital processes, and these processes can directly influence the behavior of the objects. An increasing body of work exists on specifying and executing the interface between the physical and the digital worlds for individual objects. But many real-life business scenarios require that the handling of multiple physical objects is synchronized by digital processes. An example is the cross-docking of sea containers at ports: here we have containers, ships, cranes and trucks that are all ‘things’ in the IoT sense. Cross-docking processes only work when these ‘things’ are properly co-located in time and space. Therefore, we propose an approach to specify this co-location in multi-actor, IoT-aware business process models, based on the concept of spheres. We discuss consistency checking between co-location spheres and illustrate our approach with container cross-docking processes.",
    keywords = "Internet of Things, Co-location, Time specification, Location specification, business process",
    author = "Paul Grefen and N. Brouns and Heiko Ludwig and {Serral Asensio}, E.",
    year = "2019",
    doi = "10.1007/978-3-030-21297-1_11",
    language = "English",
    isbn = "978-3-030-21296-4",
    series = "Lecture Notes in Business Information Processing",
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    Grefen, P, Brouns, N, Ludwig, H & Serral Asensio, E 2019, Co-location specification for IoT-aware collaborative business processes. in C Cappiello & M Ruiz (redactie), Information Systems Engineering in Responsible Information Systems. CAiSE 2019.. Lecture Notes in Business Information Processing, vol. 350, Springer, Cham, blz. 120-132, 31st International Conference on Advanced Information Systems Engineering, 3/06/19. DOI: 10.1007/978-3-030-21297-1_11

    Co-location specification for IoT-aware collaborative business processes. / Grefen, Paul; Brouns, N.; Ludwig, Heiko; Serral Asensio, E.

    Information Systems Engineering in Responsible Information Systems. CAiSE 2019.. redactie / C. Cappiello; M. Ruiz. Cham : Springer, 2019. blz. 120-132 (Lecture Notes in Business Information Processing; Vol. 350).

    Onderzoeksoutput: Hoofdstuk in Boek/Rapport/CongresprocedureConferentiebijdrageAcademicpeer review

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    N2 - Technologies from the Internet of Things (IoT) create new possibilities to directly connect physical processes in the ‘real’ world to digital business processes in the administrative world. Objects manipulated in the real world (the ‘things’ of IoT) can directly provide data to digital processes, and these processes can directly influence the behavior of the objects. An increasing body of work exists on specifying and executing the interface between the physical and the digital worlds for individual objects. But many real-life business scenarios require that the handling of multiple physical objects is synchronized by digital processes. An example is the cross-docking of sea containers at ports: here we have containers, ships, cranes and trucks that are all ‘things’ in the IoT sense. Cross-docking processes only work when these ‘things’ are properly co-located in time and space. Therefore, we propose an approach to specify this co-location in multi-actor, IoT-aware business process models, based on the concept of spheres. We discuss consistency checking between co-location spheres and illustrate our approach with container cross-docking processes.

    AB - Technologies from the Internet of Things (IoT) create new possibilities to directly connect physical processes in the ‘real’ world to digital business processes in the administrative world. Objects manipulated in the real world (the ‘things’ of IoT) can directly provide data to digital processes, and these processes can directly influence the behavior of the objects. An increasing body of work exists on specifying and executing the interface between the physical and the digital worlds for individual objects. But many real-life business scenarios require that the handling of multiple physical objects is synchronized by digital processes. An example is the cross-docking of sea containers at ports: here we have containers, ships, cranes and trucks that are all ‘things’ in the IoT sense. Cross-docking processes only work when these ‘things’ are properly co-located in time and space. Therefore, we propose an approach to specify this co-location in multi-actor, IoT-aware business process models, based on the concept of spheres. We discuss consistency checking between co-location spheres and illustrate our approach with container cross-docking processes.

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    Grefen P, Brouns N, Ludwig H, Serral Asensio E. Co-location specification for IoT-aware collaborative business processes. In Cappiello C, Ruiz M, redacteurs, Information Systems Engineering in Responsible Information Systems. CAiSE 2019.. Cham: Springer. 2019. blz. 120-132. (Lecture Notes in Business Information Processing). Beschikbaar vanaf, DOI: 10.1007/978-3-030-21297-1_11