A collection of research on the effects of non-ionizing EMF on biology. This is not necessarily meant for people with Environmental Illness (MCS+EHS) specifically, but to demonstrate that electromagnetic pollution is harmful to everyone — every living organism. There have been thousands of studies over the years, but I haven't found a very comprehensive, digestible database for the research. Needless the say, with the amount of radiation we're exposed to on a daily basis and prospect of global WiFi around the corner, the findings are grim.
FeatureMapper is a tool approach to combine Software Product Line Engineering (SPLE) and Model-Driven Software Development.
It supports mapping features from feature models to solution artefacts expressed in EMF/Ecore-based languages (such as UML2 or your home-made domain-specific language), provides various visualisations of these mappings, allows for mapping-based transformation of solution models, and provides an extensible interface to utilise different transformation techniques.
In addition to its own feature metamodel, it also supports feature models and variant models of pure::variants, an industrial-strength tool for variant management.
FeatureMapper is under development at the Software Technology Group of Technische Universität Dresden, partly in the context of the BMBF-funded feasiPLe research project.
JaMoPP is a set of Eclipse plug-ins that can be used to parse Java source code into EMF-based models and vice versa. JaMoPP consists of:
a complete Java5 Ecore Metamodel,
a complete Java5 EMFText Syntax, and
an implementation of Java5's static semantics analysis.
Through JaMoPP, every Java program can be processed as any other EMF model. JaMoPP therefore bridges the gap between modelling and Java programming. It enables the application of arbitrary EMF-based tools on full Java programs. Since JaMoPP is developed through metamodelling and code generation, extending Java and embedding Java into other modelling languages, using standard metamodeling techniques and tools, is now possible. To ensure the quality of JaMoPP, it has been successfully tested on a large code base.
In February 2011, three European-level trade union federations representing manufacturing workers agreed on a joint strategy to achieve stronger worker involvement in multinational companies. This joint approach has been triggered at least in part by a revised European Works Council directive, which came into force in June. The three federations want companies to find better ways to anticipate and manage change to minimise the negative impact it can have on employees.
In February 2011, three European-level trade union federations representing manufacturing workers agreed on a joint strategy to achieve stronger worker involvement in multinational companies. This joint approach has been triggered at least in part by a revised European Works Council directive, which came into force in June. The three federations want companies to find better ways to anticipate and manage change to minimise the negative impact it can have on employees.
Apache Wicket uses so called model objects to bind data objects to Wicket components. The framework provides a number of model implementations to access data
Papyrus is aiming at providing an integrated and user-consumable environment for editing any kind of EMF model and particularly supporting UML and related modeling languages such as SysML and MARTE. Papyrus provides diagram editors for EMF-based modeling languages amongst them UML 2 and SysML and the glue required for integrating these editors (GMF-based or not) with other MBD and MDSD tools.
Papyrus also offers a very advanced support of UML profiles that enables users to define editors for DSLs based on the UML 2 standard. The main feature of Papyrus regarding this latter point is a set of very powerful customization mechanisms which can be leveraged to create user-defined Papyrus perspectives and give it the same look and feel as a "pure" DSL editor.
Have you ever evolved your metamodel in EMF and your models were no longer valid afterwards? Or have you avoided to evolve your metamodel in order not to invalidate your models? Or have you even deteriorated your metamodel so that it remains downwards compatible to previous versions in order to avoid these problems?
This site introduces COPE, a tool based on EMF that eases the migration of models in response to an evolving metamodel. COPE explicitly records the history of the metamodel as a sequence of changes and allows to attach information of how to migrate models (which is referred to as coupled evolution). The attached information can be used to automatically migrate models to the new version of the metamodel. COPE even goes one step further and allows to reuse combinations of metamodel adaptation and model migration steps across metamodels.
In order not to disturb EMF users in their habits, COPE seamlessly integrates into the Ecore editor. A demonstration of the tool in action can be looked at here. It is planned to contribute COPE to the Eclipse community.