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Rehabilitation Computing in Electronic Computing
Published in Parveen Berwal, Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Shashi Kant, Computer Applications in Engineering and Management, 2022
Parveen Berwal, Jagjit Singh Dhatterwal, Kuldeep Singh Kaswan, Shashi Kant
There are view formats devoted to more complex architectures, such as the ISO-adopted Reference Model for Open Distributed Processing (RM-ODP). Concerning SOA, some tactics try to detention precise essentials linked to commercial analysis, commercial progressions, service description and detection, quality features, taking into account all the latent stakeholders; are the examples of view models devoted to SOA structures. The following are some of the advantages of SOA systems: Modeling SOA in the business of Service Views.BDC is an acronym that stands for Business Development Corporation—three distinct points of view: View-Based Modeling Framework (VbMF) for Business Analysis, Composition, and Design —designed to bring process-driven SOA and meta-modeling together.The OASIS SOA Reference Architecture is a set of guidelines that describes how to construct a service-oriented architecture. A three-way perspective model: Each of the three books, Business through Services, Realizing SOA, and Owning SOA, includes several models depicted in UML diagrams.
System of Systems Framework and Environment
Published in John P.T. Mo, Ronald C. Beckett, Engineering and Operations of System of Systems, 2018
In the recommended ISO 42010 practice, the term viewpoint is used to designate a means for constructing a view that is independent of any particular system. The term was chosen to align with that of the ISO Reference Model of Open Distributed Processing (RM-ODP), which defines a viewpoint on a system as a form of abstraction achieved using a selected set of architectural constructs and structuring rules, in order to focus on particular concerns within a system. RM-ODP has no separate term for view.
EOS: enterprise operating systems
Published in International Journal of Production Research, 2018
Joseph Rahme Youssef, Gregory Zacharewicz, David Chen, François Vernadat
Also in the same period, another important initiative under the frame of ISO/IEC was the development of a Reference Model for Open Distributed Processing (RM-ODP). This international standard was published in 1990 to describe and build widely distributed systems and applications in a multi-vendor environment (ISO/IEC 2009). The ODP framework integrates aspects related to the distribution, interoperation and portability of software systems, so the operating systems, programming languages, databases and management systems are transparent to the user, and it manages also complexity and maintains consistency of information (Zurawski 2004). ODP and DCE are similar approaches aiming at supporting stem-wide distributed communication and sharing of information. This is a core functionality to be provided by EOS. However, both RM-ODP and DCE do not support enterprise model execution and they are dedicated to IT systems and not aimed at enterprise operations monitoring and control.
A methodology to create a sensing, smart and sustainable manufacturing enterprise
Published in International Journal of Production Research, 2018
Dante Chavarría-Barrientos, Rafael Batres, Paul K. Wright, Arturo Molina
This paper proposes a methodology to assist the engineering process of an S3-ME in a holistic and integrated manner. As shown in Figure 2, the proposed methodology is based on two main concepts. The first is the Smart and Sensing Enterprise Reference Model (S2E-RM) (Chavarría-Barrientos et al. 2015) because its viewpoints guide the analysis, design and implementation of an enterprise. These viewpoints (i.e. enterprise, information, computation, engineering and technology) are based on ISO/IEC 10746 RM-ODP. Originally, the RM-ODP viewpoints serve distributed systems engineering; however, they are adapted for enterprise design within the S2E-RM. The second concept is the action-research methodology (Baskerville and Wood-Harper 2016), which allows to achieve understanding in a systematic way. The action-research phases (i.e. plan, act, observe and reflect) guide the instantiation processes of the reference model. The plan phase of each viewpoint states how to prepare the viewpoint instantiation and provides statements to guide the inclusion of the S3 concepts. At the ‘act’ phase, the instantiation process of each viewpoint establishes the particular enterprise model. In the ‘observe’ phase, the generated particular model is evaluated. Based on such evaluation, at the ‘reflect’ phase, the stakeholders decide to finish or restart the viewpoint cycle. This systematic approach allows the design of multiple aspects of the S3-ME. In the proposed methodology, these five viewpoints are considered, following the sequence shown in Figure 2. This sequence starts from business concept design (enterprise viewpoint) and ends with the plant design (technology viewpoint). Although all the viewpoints could be used individually to fulfil specific design goals, this type of usage is not explored in this paper. A detailed explanation of each viewpoint instantiation is explained in the following sections.
Multi-scale hydrological system-of-systems realized through WHOS: the brokering framework
Published in International Journal of Digital Earth, 2022
Enrico Boldrini, Stefano Nativi, Silvano Pecora, Igor Chernov, Paolo Mazzetti
The RM-ODP is a well-used formalism to define architectures, which is compliant with IEEE 1471, and it is freely available (ISO/IEC 1998). In the rest of the manuscript, we will use the standard Unified Modeling Language (UML) for representing the architecture views graphically – see UML4ODP (ITU-T 2014). For the readers’ convenience, a legend, comprising the most common UML symbols used in the view diagrams, is represented in Figure 2.