Add to ORKGIn this Master Thesis, we have proposed a model-driven Software Product Line (SPL) for developing autonomic pervasive systems. The work focusses on reusing the Variability knowledge from the SPL design to the SPL products. This Variability knowledge enables SPL products to deal with adaptation scenarios (evolution and involution) in an autonomic way.Cetina Englada, C. (2008). Applying Software Product Lines to Build Autonomic Pervasive Systems. http://hdl.handle.net/10251/12447Archivo delegad
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Over the last two decades, software product lines have been used successfully in industry for buildi...
In this Master Thesis, we have proposed a model-driven Software Product Line (SPL) for developing au...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
Model-based autonomic computing systems facilitate the planning capabilities inside the adaptation l...
We describe ongoing work in knowledge evolution management for autonomic software product lines. We ...
This thesis focuses on model-driven software product line development, which is the combination of t...
Software design, development and maintenance for large scale systems has been one of the most diffic...
Dynamic software adaptability is one of the central features leveraged by autonomic computing. Howev...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
Software product line engineering is an approach that develops and maintains families of products wh...
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Over the last two decades, software product lines have been used successfully in industry for buildi...
In this Master Thesis, we have proposed a model-driven Software Product Line (SPL) for developing au...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
This report describes a work in progress to develop Autonomic Software Product Lines (ASPL). The ASP...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
Model-based autonomic computing systems facilitate the planning capabilities inside the adaptation l...
We describe ongoing work in knowledge evolution management for autonomic software product lines. We ...
This thesis focuses on model-driven software product line development, which is the combination of t...
Software design, development and maintenance for large scale systems has been one of the most diffic...
Dynamic software adaptability is one of the central features leveraged by autonomic computing. Howev...
Increasingly, software needs to dynamically adapt its behavior at run-time in response to changing ...
Software product line engineering is an approach that develops and maintains families of products wh...
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Modern software systems are increasingly more connected, pervasive, and dynamic, as such, they are s...
Over the last two decades, software product lines have been used successfully in industry for buildi...