His primary areas of study are Software, Software engineering, Software quality, Software system and Software construction. His Software research is multidisciplinary, relying on both Virtualization, Cloud computing and Information technology. His Cloud computing study combines topics in areas such as Computer security, Provisioning and End user.
The various areas that Mladen A. Vouk examines in his Software engineering study include Linear model, Empirical research, Data management and Systems engineering. Mladen A. Vouk has researched Software quality in several fields, including Reliability engineering and Application software. Mladen A. Vouk combines subjects such as Distributed computing and Software development with his study of Software system.
Reliability engineering, Software engineering, Software, Workflow and Software quality are his primary areas of study. His Reliability engineering research includes themes of Software reliability testing and White-box testing. His Software engineering study incorporates themes from Systems engineering and Software development process.
He works mostly in the field of Workflow, limiting it down to topics relating to Distributed computing and, in certain cases, Cloud computing. Utility computing and Virtualization are subfields of Cloud computing in which his conducts study. His Software quality study frequently draws parallels with other fields, such as Reliability.
Mladen A. Vouk mainly focuses on Cloud computing, Computer security, Distributed computing, Software and Software system. His Cloud computing research incorporates elements of Supercomputer, State and Database. His Computer security study integrates concerns from other disciplines, such as Cloud computing security, Vulnerability and Product.
The Distributed computing study combines topics in areas such as Middleware, Virtualization, Baseline and Workflow. The study incorporates disciplines such as Situated learning and Curriculum in addition to Software. His studies examine the connections between Software deployment and genetics, as well as such issues in Software construction, with regards to Reliability engineering.
His main research concerns Software, Distributed computing, Software system, Software security assurance and Software engineering. His Software study combines topics from a wide range of disciplines, such as Cloud computing and Situated learning. His Cloud computing research includes elements of World Wide Web, Authentication and Access control.
His biological study spans a wide range of topics, including Testbed, Software framework and Software development. His Software security assurance study deals with the bigger picture of Computer security. His Software engineering research integrates issues from Field, Curriculum, Software Engineering Process Group and Software testing.
This overview was generated by a machine learning system which analysed the scientist’s body of work. If you have any feedback, you can contact us here.
Cloud computing — Issues, research and implementations
information technology interfaces (2008)
On the value of static analysis for fault detection in software
J. Zheng;L. Williams;N. Nagappan;W. Snipes.
IEEE Transactions on Software Engineering (2006)
Test-driven development as a defect-reduction practice
L. Williams;E.M. Maximilien;M. Vouk.
international symposium on software reliability engineering (2003)
An experimental evaluation of software redundancy as a strategy for improving reliability
D.E. Eckhardt;A.K. Caglayan;J.C. Knight;L.D. Lee.
IEEE Transactions on Software Engineering (1991)
SDIoT: a software defined based internet of things framework
Yaser Jararweh;Mahmoud Al-Ayyoub;Ala Darabseh;Elhadj Benkhelifa.
ambient intelligence (2015)
The next generation of integrated air quality modeling: EPA's models-3
Robin L. Dennis;Daewon W. Byun;Joan H. Novak;Kenneth J. Galluppi.
Atmospheric Environment (1996)
NCSU's Virtual Computing Lab: A Cloud Computing Solution
H.E. Schaffer;S.F. Averitt;M.I. Hoit;A. Peeler.
IEEE Computer (2009)
Scientific Process Automation and Workflow Management
Bertram Ludäscher;Ilkay Altintas;Shawn Bowers;Julian Cummings.
Scientific Data Management (2009)
Software defined cloud
Yaser Jararweh;Mahmoud Al-Ayyoub;Ala' Darabseh;Elhadj Benkhelifa.
Future Generation Computer Systems (2016)
Abstracting log lines to log event types for mining software system logs
Meiyappan Nagappan;Mladen A. Vouk.
mining software repositories (2010)
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