Methods for supporting evolution of software-intensive systems are a competitive edge in software engineering as software is often operated over decades. Empirical research is useful to validate the effectiveness of these methods. However, empirical studies on software evolution are rarely comprehensive and hardly replicable. Collaboration may prevent these shortcomings. We designed CoCoMEP — a platform for supporting collaboration in empirical research on software evolution by shared knowledge. We report lessons learned from the application of the platform in a large research programme
While most researchers agree on the need for empirical validation of theoretical results, two main i...
Software evolution research is limited by the amount of information available to researchers: Curren...
AbstractSoftware evolution research is limited by the amount of information available to researchers...
Software-intensive systems are subject to continuous change due to modification of the systems thems...
During the last few years, software evolution research has explored new domains such as the study of...
Software evolution research is a thriving area of software engineering research. Recent years have s...
Scientists at Fraunhofer IESE [IESE09] perform research in engineering methods for future informatio...
The quantitative study of software evolution seem to have kicked off in the early 1970’s with the st...
Software evolution has no common paradigm which practitioners can adhere to. On the contrary, there ...
Software development is rapidly changing and software systems are increasing in size and expected li...
Research on software evolution is very active, but evolutionary principles, models and theories that...
First, we note that Evolution is one of Brooks ' [1] essential characteristics of software syst...
I am interested in software engineering, more specifically in software evolution. My research focuse...
The phenomenon of “software evolution ” was observed back in the 1970s when the first large software...
Software evolution research inherently has several resourceintensive logistical constraints. Archive...
While most researchers agree on the need for empirical validation of theoretical results, two main i...
Software evolution research is limited by the amount of information available to researchers: Curren...
AbstractSoftware evolution research is limited by the amount of information available to researchers...
Software-intensive systems are subject to continuous change due to modification of the systems thems...
During the last few years, software evolution research has explored new domains such as the study of...
Software evolution research is a thriving area of software engineering research. Recent years have s...
Scientists at Fraunhofer IESE [IESE09] perform research in engineering methods for future informatio...
The quantitative study of software evolution seem to have kicked off in the early 1970’s with the st...
Software evolution has no common paradigm which practitioners can adhere to. On the contrary, there ...
Software development is rapidly changing and software systems are increasing in size and expected li...
Research on software evolution is very active, but evolutionary principles, models and theories that...
First, we note that Evolution is one of Brooks ' [1] essential characteristics of software syst...
I am interested in software engineering, more specifically in software evolution. My research focuse...
The phenomenon of “software evolution ” was observed back in the 1970s when the first large software...
Software evolution research inherently has several resourceintensive logistical constraints. Archive...
While most researchers agree on the need for empirical validation of theoretical results, two main i...
Software evolution research is limited by the amount of information available to researchers: Curren...
AbstractSoftware evolution research is limited by the amount of information available to researchers...