Model-Driven Development

Pastor, Óscar; España, Sergio; Panach, José Ignacio; Aquino, Nathalie

doi:10.1007/s00287-008-0275-8

Cited by 48 publications

(24 citation statements)

References 11 publications

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“…The idea is thus to contribute to the consolidation of the model-driven development (MDD) approach [10], [12] as an agile and adaptive mapping between requirements and execution components. The purpose is to promote a system's, rather than software development thinking.…”

Section: The Concept Of Collaboration Enabled Systemmentioning

confidence: 99%

Cooperation Enabled Systems for Collaborative Networks

Osório¹,

Camarinha-Matos²

2011

Adaptation and Value Creating Collaborative Networks

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Abstract.A fast evolution to collaborative business models requires novel strategies for the development of collaboration-based information technology (IT) solutions. The complexity of building such solutions based on heterogeneous sub-systems requires a multidisciplinary approach, involving the perspectives of technology and business/management. In this direction, a novel approach is proposed, introducing the notion of Cooperation Enabled System as an autonomous and adaptive computational component as the base constructor to develop open (collaborative) IT solutions.

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Section: The Concept Of Collaboration Enabled Systemmentioning

confidence: 99%

Cooperation Enabled Systems for Collaborative Networks

Osório¹,

Camarinha-Matos²

2011

Adaptation and Value Creating Collaborative Networks

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“…The OO-Method has been developed by Pastor et al (2008) and introduces a so-called Conceptual Model to define all aspects that are needed to generate information system applications. The Conceptual Model consists of an Object Model,aDynamic Model,aFunctional Model and a Presentation Model.…”

Section: Models In the Oo-methodsmentioning

confidence: 99%

Automated Generation of User Interfaces – A Comparison of Models and Future Prospects

Horacek¹,

Popp²,

Raneburger³

2012

Human Machine Interaction - Getting Closer

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“…Reusable computer models of the system under design (the system model) allow continuous flow of information between the different tasks and simple implementation of the mentioned synthesis/analysis loop [Pastor O. et al, 2008]. Paying attention to the early phases of system design (to identify and validate/verify the concepts of the product) reduce the risk of later costly design changes.…”

Section: Systemic Design and Safety Assessmentmentioning

confidence: 99%

Save Maritime Systems Testbed

Bolles

Hahn

2014

Annual of Navigation

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ABSTRACT'Safe voyage from berth to berth' -this is the goal of all e-navigation strains, driven by new technologies, new infrastructures and new organizational structures on bridge, on shore as well as in the cloud. To facilitate these efforts suitable engineering and safety/risk assessment methods have to be applied. Understanding maritime transportation as a sociotechnical system allows system engineering methods to be applied. Formal and simulation based verification and validation of e-navigation technologies are important methods to obtain system safety and reliability. The modelling and simulation toolset HAGGIS provides methods for system specification and formal risk analysis. It provides a modelling framework for processes, fault trees and generic hazard specification and a physical world and maritime traffic simulation system. HAGGIS is accompanied by the physical test bed LABSKAUS which implements a reference port and waterway. Additionally, it contains an experimental Vessel Traffic Services (VTS) implementation and a mobile integrated bridge enabling in situ experiments for technology evaluation, testing, ground research and demonstration. This paper describes an integrated seamless approach for developing new e-navigation technologies starting with virtual simulation based assessment and ending in physical real world demonstrations.

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Model-Driven Development

Cited by 48 publications

References 11 publications

Cooperation Enabled Systems for Collaborative Networks

Cooperation Enabled Systems for Collaborative Networks

Automated Generation of User Interfaces – A Comparison of Models and Future Prospects

Save Maritime Systems Testbed

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