![]() java files is not compatible with JUnit tests! This means dont use Modelio code convertion from the JUnit Testfiles to be represented in Modelio. Nowadays are not used on grounds of non-comfort.User manual: WARNING Modelio, Eclipse and JUnit ◦ Purpose: use models in the common activities that Scenario 3: Modelling from mobile devices ◦ Expected benefits: agility and flexibility through ◦ Purpose: allow engineers to be able to manage Scenario 2: Partial-load / Load-on-demand a more flexible wind turbine control system add teamworking capabilities to the modelling tool. ◦ Purpose: provide agile development to the wind turbineĬontrol system engineers to be able to specify models Scenario 1: Wind turbine control system ◦ Support modelling activities in out-of-the-officeĮnvironments: modelling from mobile devices. Partial load of models, advanced querying capabilities. ◦ Add new features: concurrent model edition, ◦ Provide collaboration in the modelling tool Not conceived to be used in an agile and Open-source Eclipse modelling technology ◦ Modelling Control Systems of Wind Turbines: specify behaviour of With outstanding performance (on-the-fly) to generateĬomplex QTO reports making it possible to improve modelįor best quantities arrangement (thus best cost solution). ◦ Expected benefits: Ability to traverse large BIM data model Via a large shared-model in Model Server.ĭirect way to extract the quantities of a building by doing a Model coordinator, model clients) interact Scenario 2: Shared- (huge-) model collaboration Jørn Skauge, Per Christiansson, Kjeld Svidt, (*) Picture included courtesy of “Use of IFC Model Servers: ModellingĬollaboration Possibilities in Practice” Kaj A. Model, but having all parts promptly merged together ◦ Expected benefits: enable off-line work on part of a large incorporating AECO domain knowledge for theīest possibly experience and performance. ◦ Enable an efficient management and exploitation of Open-BIM ◦ Special focus on the Architecture, Engineering, Construction and ◦ Well-known activities on data and interoperability, at European Modelio M2M transformations in a large model contextīy reducing the amount of needed time and ◦ Expected benefits: improve the scalability and performances of Transformations inside Modelio and EMF UML2 XMI import/export Benchmarking and performance analysis: M2M ◦ Purpose: compare the M2M transformation support by bothįrameworks. Scenario 4: MONDO support in M2M trans. Modelio M2T transformations in a large model context. ◦ Expected benefits: improve the scalability and performance of ![]() ◦ Purpose: specification and execution of M2T transformations.īenchmarking and performance analysis: M2T transformations Scenario 3: MONDO support in M2T trans. Gaining speed in the overall design in large team and large ◦ Expected benefits: improve end users’ experience of modelling ◦ Purpose: integrate the MONDO technologies for supporting largeĪnd complex models and large collaborating teams. Scenario 2: MONDO framework collaborative ◦ Expected benefits: improve the Modelio querying facilities toīetter meet end user’s needs in terms of performance (time and Provided by both Modelio and MONDO frameworks. ◦ Purpose: comparison of the query facilities and performances Scenario 1: MONDO framework querying facility ![]() ◦ MONDO technologies evaluated using this model in aĬollaborative environment composed by a large team. Salvador Trujillo, Xabier Mendialdua and Xabier de Carlos Model Driven Engineering Languages & SystemsĪlessandra Bagnato, Etienne Brosse, Andrey Sadovykh, Pedro Maló, Specific evaluation scenarios are specified for each of the targeted industrial domains as well.įlexible and Scalable Modelling in the MONDO Project: 3 Industrial Case Studies XM 2014 For each demonstrator the interests of the industrial user partners are described along with their current and desired improvements in technologies to support MBE in a much more flexible way. This paper describes three different industrial demonstrators and three different modelling approaches that will be utilised to evaluate the capabilities of the MONDO technologies. The MONDO FP7 EU project aims to comprehensively tackle the challenge of scalability in system design and management by developing the theoretical foundations and an open-source implementation of a platform and will offer to Model-Driven Engineering (MDE) users advanced flexibility in their different modeling approaches. ![]() System designs are living and evolving artefacts this imply to be able to manage them in an efficient and agile way. ![]() To stay competitive engineers from several expertise domains use Model-Based engineering (MBE) to design the systems they intend to implement in order to specify, test, simulate, validate and iterate their design as soon as possible. Today, system designs and their management are crucial parts of most systems development processes. ![]()
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