Survey Paper | Computer Science & Engineering | India | Volume 3 Issue 3, March 2014
Automated Test Case Generation Using Multiple Modelling Techniques
Melvin Philips, Nikhil Pawar, Nitesh Joshi, Sanket Khandebharad, Sunil Deshmukh, Kailash Tambe
Model based testing is no more in nascent phases. Many research based and commercial tools are already available today. Most of the existing systems use specific models like UML or FSM to model the system. A single methodology will not be effective enough to ensure optimum test coverage. The intension of this project is to apply multiple modelling techniques to generate test cases. A single system applying various models for test case generation will fulfil the key requirement of ensuring test coverage. We plan to make use of various test case design techniques as well to generate test cases from the model and then optimize or prioritize the test cases, if needed. We would mainly be concentrating on the analysis level UML diagrams like Activity diagrams, State transition diagrams.
Keywords: Model Based Testing, Unified Modelling Language, Decision Table, Statechart Table
Edition: Volume 3 Issue 3, March 2014
Pages: 722 - 726
How to Cite this Article?
Melvin Philips, Nikhil Pawar, Nitesh Joshi, Sanket Khandebharad, Sunil Deshmukh, Kailash Tambe, "Automated Test Case Generation Using Multiple Modelling Techniques", International Journal of Science and Research (IJSR), https://www.ijsr.net/search_index_results_paperid.php?id=20131248, Volume 3 Issue 3, March 2014, 722 - 726
101 PDF Views | 86 PDF Downloads
Similar Articles with Keyword 'Decision Table'
Survey Paper, Computer Science & Engineering, India, Volume 3 Issue 3, March 2014
Pages: 722 - 726Automated Test Case Generation Using Multiple Modelling Techniques
Melvin Philips, Nikhil Pawar, Nitesh Joshi, Sanket Khandebharad, Sunil Deshmukh, Kailash Tambe
Research Paper, Computer Science & Engineering, India, Volume 6 Issue 3, March 2017
Pages: 335 - 338Classification of Medical Dataset using Hybrid Feature Selection & Enhanced Decision Table Classification Approach
Parneet Kaur, Deepak Aggarwal