Plant descriptions for engineering tool interoperability

Carlsson, Oscar; Vera, Daniel; Delsing, Jerker; Ahmad, Bilal; Harrison, Robert

doi:10.1109/indin.2016.7819255

Cited by 16 publications

(5 citation statements)

References 11 publications

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“…Automation Support Core Systems: such as SystemRegistry, DeviceRegistry [11], PlantDescription [26], Event Handler [24], etc., are used to facilitate automation application design, engineering, and operation. These systems are used to provide support for automation, security, service exchange, interoperability, and many other features of the local cloud.…”

Section: A Eclipse Arrowhead Framework Systems and Servicesmentioning

confidence: 99%

Security Standard Compliance Verification in System of Systems

Bicaku

Zsilak

Theiler

et al. 2022

IEEE Systems Journal

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Standard compliance in system of systems (SoS) means complying with standards, laws, and regulations that apply to services from several sources and different levels. Compliance is a major challenge in many organizations because any violation will lead to financial penalties, lawsuits fines, or revocation of licenses to operate within specific industrial market. To support the business lifecycle, organizations also need to monitor the actual processes during run time and not only in their design time. Standard compliance verification is important in the lifecycle for reasons, such as detection of noncompliance as well as operational decisions of running processes. With the promotion of connectivity of systems, existing and new security standards can be employed but there are important aspects, such as technically measurable indicators, in the standards and automation of compliance verification that need to be addressed. This article presents an automated and continuous standard compliance verification framework used to check devices, systems, and services for standard compliance during secure onboarding and run time. In addition, a case study for the Eclipse Arrowhead framework is used to demonstrate the functionality of the standard compliance verification in SoS.

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Section: A Eclipse Arrowhead Framework Systems and Servicesmentioning

confidence: 99%

Security Standard Compliance Verification in System of Systems

Bicaku

Zsilak

Theiler

et al. 2022

IEEE Systems Journal

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“…They are involved in managing more sub-activities defined in the CCC model. Such systems include QoS (Quality of Service) Manager [56], System Configuration Store [56], Gatekeeper System and Gateway [57], Event Handler [58], Plant Description System [59], Translator System [60], Historian [56] and Workflow Choreographer [54], [61].…”

Section: Lifecycle and Toolchain Management In Arrowheadmentioning

confidence: 99%

Supporting Digital Supply Chains by IoT Frameworks: Collaboration, Control, Combination

Kozma¹,

Varga²

2020

Infocommunications journal

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The purpose of this paper is to introduce a technology-oriented SCM (Supply Chain Management) development methodology, which can be used in the design of IoT (Internet of Things) frameworks especially characterized by supply chain processes. In order to meet DSC (Digital Supply Chain) expectations, two areas are examined in detail during the literature review. Firstly, the current SCM models are studied. Secondly, Industry 4.0 requirements had to be surveyed. As a consequence, challenges and gaps are identified for which we seek the solution during our research. Based on the results, it can be stated that digitization has definitely required an improved technological solution that IoT frameworks can provide. The result is a technology-driven, IoT-based SCM development methodology that serves as a basis for the design of such platforms, which will manage supply chains. To prove the feasibility of the proposed development methodology, the Arrowhead industrial IoT framework is used for validation.

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“…In brief, the mandatory core systems [16] are the Orchestration System (mainly for service discovery and late binding), Service Registry (so services providers can announce their active services), and Authorisation System (to provide Authorisation and Authentication). Further, supporting systems are provided by the Gateway [17] and Gatekeeper Systems [15] for inter-cloud communication (data and control plane, respectively), the Workflow Choreographer [12] (to trigger the next step in the process execution), the Event Handler [18] (to circulate status and event information), and the Plant Description System [19] (to keep track of SoSor Plant-related meta-data), among others. The local cloudspecific systems can be the local systems; from the smallest sensor up to the biggest Cyber-Physical Systems (CPS).…”

Section: Arrowhead Frameworkmentioning

confidence: 99%

Data-driven Workflow Management by utilising BPMN and CPN in IIoT Systems with the Arrowhead Framework

Kozma

Varga

Larrinaga

2019

2019 24th IEEE International Conference on Emerging Technologies and Factory Automation (ETFA)

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Workflow management is realised in manufacturing at the Enterprise-and Production (workstation) levels. The characteristics of business processes in these levels differ enough to prevent the adoption of a conventional modelling or implementation solution. The conceptualisation of an adequate and adaptable workflow management model that over-arches the heterogeneous business process levels is challenging. However, one of the encouragements of Industry 4.0 is to provide easy-touse models and solutions that enable the effective implementation of production goals.The current paper addresses this challenge and -as a proofof-concept -it demonstrates how the goals mentioned above can be achieved by combining the different manufacturing process models. To accomplish this, a workflow control engine needs to be designed and standardised respectively. Arrowhead is an IIoT (Industrial IoT) framework that dynamically and flexibly supports automated manufacturing processes following Industry 4.0 expectations. This paper describes how its workflow management system, i.e., the Workflow Choreographer implements automated production. Furthermore, it details what the functions of this system are and how it applies and combines BPMN and CPN in practice to provide a solution for the given challenge.To verify its feasibility, the paper showcases a demo application of the concept as well.

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Plant descriptions for engineering tool interoperability

Cited by 16 publications

References 11 publications

Security Standard Compliance Verification in System of Systems

Security Standard Compliance Verification in System of Systems

Supporting Digital Supply Chains by IoT Frameworks: Collaboration, Control, Combination

Data-driven Workflow Management by utilising BPMN and CPN in IIoT Systems with the Arrowhead Framework

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