2023 - Research.com Computer Science in Australia Leader Award
His primary scientific interests are in Software engineering, Metamodeling, Systems engineering, Software development process and Software development. His Software engineering research is multidisciplinary, incorporating perspectives in Requirement, Lean software development and Agile Unified Process. Metamodeling is a subfield of Programming language that Brian Henderson-Sellers studies.
His Systems engineering study incorporates themes from User interface design, Powertype and Class cohesion. His work deals with themes such as Product, Process integration and User requirements document, which intersect with Software development process. The various areas that Brian Henderson-Sellers examines in his Method engineering study include Quality, Conceptual framework, Management science and Principal.
Brian Henderson-Sellers mainly focuses on Software engineering, Metamodeling, Software development, Method engineering and Systems engineering. His Software engineering study integrates concerns from other disciplines, such as Empirical process, Software development process, Software construction, Artificial intelligence and Software. His Artificial intelligence research includes elements of Object-oriented programming and Machine learning.
Brian Henderson-Sellers combines subjects such as Model-driven architecture, Unified Modeling Language, Context and Notation with his study of Metamodeling. His study in Software development is interdisciplinary in nature, drawing from both Software system and Process management. His research in Method engineering intersects with topics in Quality, Situational ethics, Data mining, Engineering management and Agent oriented methodology.
His scientific interests lie mostly in Software engineering, Metamodeling, Method engineering, Context and Quality. His Software engineering study combines topics from a wide range of disciplines, such as Ontology, Artificial intelligence and Software, Software development. His Ontology research includes themes of Domain, Programming language and Distributed computing.
He has researched Metamodeling in several fields, including Unified Modeling Language, Set theory, Paradigm shift and Notation. His Method engineering research is multidisciplinary, relying on both Situational ethics, Data mining and Software development process. His Context research is multidisciplinary, incorporating elements of Class, On Language, Management science and Meaning.
His main research concerns Metamodeling, Software engineering, Context, Method engineering and Management science. The study incorporates disciplines such as Object, Social science and Paradigm shift in addition to Metamodeling. His studies deal with areas such as Quality, Ontology, Artificial intelligence and Common ground as well as Software engineering.
His work investigates the relationship between Context and topics such as Situational ethics that intersect with problems in Systems engineering and Process modeling. His work in Method engineering addresses subjects such as Software development process, which are connected to disciplines such as Human–computer interaction, Notation, Variety and Conceptual framework. His Management science study combines topics in areas such as Basis, Semantics, Contrast and Representation.
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.
Object-oriented metrics: measures of complexity
The object-oriented systems life cycle
Brian Henderson-Sellers;Julian M. Edwards.
Communications of The ACM (1990)
Brian Henderson-Sellers;Paolo Giorgini.
An evaluation of the degree of agility in six agile methods and its applicability for method engineering
A. Qumer;B. Henderson-Sellers.
Information & Software Technology (2008)
The OPEN process specification
Ian Graham;Brian Henderson-Sellers;Houman Younessi.
The open process framework : an introduction
Donald G. Firesmith;Brian Henderson-Sellers.
A framework to support the evaluation, adoption and improvement of agile methods in practice
A Qumer;B Henderson-Sellers.
Quality Engineering (2009)
Situational method engineering: State-of-the-art review
Brian Henderson-Sellers;Jolita Ralyté.
Journal of Universal Computer Science (2010)
Calculating the surface energy balance for lake and reservoir modeling: A review
Reviews of Geophysics (1986)
Ontological Evaluation of the UML Using the Bunge–Wand–Weber Model
Andreas L. Opdahl;Brian Henderson-Sellers.
Software and Systems Modeling (2002)
If you think any of the details on this page are incorrect, let us know.
We appreciate your kind effort to assist us to improve this page, it would be helpful providing us with as much detail as possible in the text box below: