581 research outputs found
P ORTOLAN: a Model-Driven Cartography Framework
Processing large amounts of data to extract useful information is an
essential task within companies. To help in this task, visualization techniques
have been commonly used due to their capacity to present data in synthesized
views, easier to understand and manage. However, achieving the right
visualization display for a data set is a complex cartography process that
involves several transformation steps to adapt the (domain) data to the
(visualization) data format expected by visualization tools. To maximize the
benefits of visualization we propose Portolan, a generic model-driven
cartography framework that facilitates the discovery of the data to visualize,
the specification of view definitions for that data and the transformations to
bridge the gap with the visualization tools. Our approach has been implemented
on top of the Eclipse EMF modeling framework and validated on three different
use cases
Towards maintainer script modernization in FOSS distributions
Free and Open Source Software (FOSS) distributions are complex software
systems, made of thousands packages that evolve rapidly, independently, and
without centralized coordination. During packages upgrades, corner case
failures can be encountered and are hard to deal with, especially when they are
due to misbehaving maintainer scripts: executable code snippets used to
finalize package configuration. In this paper we report a software
modernization experience, the process of representing existing legacy systems
in terms of models, applied to FOSS distributions. We present a process to
define meta-models that enable dealing with upgrade failures and help rolling
back from them, taking into account maintainer scripts. The process has been
applied to widely used FOSS distributions and we report about such experiences
Knowledge Reuse for Customization: Metamodels in an Open Design Community for 3d Printing
Theories of knowledge reuse posit two distinct processes: reuse for
replication and reuse for innovation. We identify another distinct process,
reuse for customization. Reuse for customization is a process in which
designers manipulate the parameters of metamodels to produce models that
fulfill their personal needs. We test hypotheses about reuse for customization
in Thingiverse, a community of designers that shares files for
three-dimensional printing. 3D metamodels are reused more often than the 3D
models they generate. The reuse of metamodels is amplified when the metamodels
are created by designers with greater community experience. Metamodels make the
community's design knowledge available for reuse for customization-or further
extension of the metamodels, a kind of reuse for innovation
Using ATL transformation services in the MDEForge collaborative modeling platform
The final publication is available at Springer via http://dx.doi.org/10.1007/978-3-319-42064-6_5In the last years, the increasing complexity of Model-Driven Engineering
(MDE) tools and techniques has led to higher demands in terms of computation,
interoperability, and configuration management. Harnessing the softwareas-
a-service (SaaS) paradigm and shifting applications from local, mono-core implementations
to cloud-based architectures is key to enhance scalability and flexibility.
To this end, we propose MDEForge: an extensible, collaborative modeling
platform that provides remote model management facilities and prevents the user
from focussing on time-consuming, and less creative procedures. This demo paper
illustrates the extensibility of MDEForge by integrating ATL services for the
remote execution, automated testing, and static analysis of ATL transformations.
The usefulness of their employment under the SaaS paradigm is demonstrated
with a case-study showing a wide range of new application possibilities.Work supported by the Spanish MINECO (TIN2014-52129-R), the Madrid Region (S2013/ICE-3006), and the EU commission (#611125
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