Difference between revisions of "Mobile eHealth MeH (PESOS 2012)"
Berardinelli (talk | contribs) |
Berardinelli (talk | contribs) |
||
Line 7: | Line 7: | ||
Figure 1 shows the PLASTIC Development Process and the related artifacts. | Figure 1 shows the PLASTIC Development Process and the related artifacts. | ||
− | The MeH UML Model has been created using the MagicDraw UML modeling tool that can be downloaded here [www.magicdraw.com/]. MagicDraw UML can be seamlessly integrated with the Eclipse Modeling Project [http://www.eclipse.org/modeling/]. For this reason, the MeH UML Model can be opened both in MagicDraw and in any Eclipse UML compliant plugin of the Eclipse platform. | + | The '''MeH UML Model''' has been created using the MagicDraw UML modeling tool that can be downloaded here [www.magicdraw.com/]. MagicDraw UML can be seamlessly integrated with the Eclipse Modeling Project [http://www.eclipse.org/modeling/]. For this reason, the MeH UML Model can be opened both in MagicDraw and in any Eclipse UML compliant plugin of the Eclipse platform. |
+ | |||
+ | The '''MeHQnmodel.jsimg''' is a queuing Network model that has been created using the Java Modeling Tool [http://jmt.sourceforge.net/]. The QN model has beed derived from the MeH UML Model following the PRIMAUML model-based performance methodology [http://dl.acm.org/citation.cfm?id=607042]. The '''MeHQnmodel.jsimg''' can be opened in JMT and it can be executed to derive the performance indeces of interest. | ||
+ | It's worth noting that the transformation from UML2JMT has not been implemented. However a similar UML2PMIF transformation has been implemented in MOSQUITO starting from PLASTIC UML Model (see [http://sealabtools.di.univaq.it/tools.php]). | ||
+ | |||
+ | |||
+ | |||
+ | |||
+ | |||
== Basic technology == | == Basic technology == | ||
Line 17: | Line 25: | ||
All the artifacts and detailed procedures to install tools and case studies are provided here [http://code.google.com/a/eclipselabs.org/p/mobile-ehealth-case-study/] | All the artifacts and detailed procedures to install tools and case studies are provided here [http://code.google.com/a/eclipselabs.org/p/mobile-ehealth-case-study/] | ||
− | == | + | == Download == |
− | |||
− | |||
− | + | [http://code.google.com/a/eclipselabs.org/p/mobile-ehealth-case-study/] | |
− | |||
== Additional info == | == Additional info == | ||
− | + | [http://dl.acm.org/citation.cfm?id=607042] Vittorio Cortellessa, Raffaela Mirandola: PRIMA-UML: a performance validation incremental methodology on early UML diagrams. Sci. Comput. Program. 44(1): 101-129 (2002) | |
− | |||
− | |||
− | + | [http://www.di.univaq.it/chameleon/publications.php] CHAMELEON Framework |
Revision as of 11:20, 31 May 2012
This page describes the artifacts of the Mobile eHealth case study.
Description
Figure 1 shows the PLASTIC Development Process and the related artifacts.
The MeH UML Model has been created using the MagicDraw UML modeling tool that can be downloaded here [www.magicdraw.com/]. MagicDraw UML can be seamlessly integrated with the Eclipse Modeling Project [1]. For this reason, the MeH UML Model can be opened both in MagicDraw and in any Eclipse UML compliant plugin of the Eclipse platform.
The MeHQnmodel.jsimg is a queuing Network model that has been created using the Java Modeling Tool [2]. The QN model has beed derived from the MeH UML Model following the PRIMAUML model-based performance methodology [3]. The MeHQnmodel.jsimg can be opened in JMT and it can be executed to derive the performance indeces of interest. It's worth noting that the transformation from UML2JMT has not been implemented. However a similar UML2PMIF transformation has been implemented in MOSQUITO starting from PLASTIC UML Model (see [4]).
Basic technology
WSDL, UML, Java, Queuing Network
How to install
All the artifacts and detailed procedures to install tools and case studies are provided here [5]
Download
Additional info
[7] Vittorio Cortellessa, Raffaela Mirandola: PRIMA-UML: a performance validation incremental methodology on early UML diagrams. Sci. Comput. Program. 44(1): 101-129 (2002)
[8] CHAMELEON Framework