A Scalable Approach to User-Session based Testing of Web Applications through Concept Analysis
Proceedings of the 19th IEEE international conference on Automated software engineering
An exploration of statistical models for automated test case generation
WODA '05 Proceedings of the third international workshop on Dynamic analysis
Automated replay and failure detection for web applications
Proceedings of the 20th IEEE/ACM international Conference on Automated software engineering
Integrating customized test requirements with traditional requirements in web application testing
Proceedings of the 2006 workshop on Testing, analysis, and verification of web services and applications
Testing Web-based applications: The state of the art and future trends
Information and Software Technology
Splitter: a proxy-based approach for post-migration testing of web applications
Proceedings of the 5th European conference on Computer systems
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Low reliability in web-based applications can result in detrimental effects for business, government, and consumers as they become increasingly dependent on the internet for routine operations. A short time to market, large user community, demand for continuous availability, and frequent updates motivate automated, cost-effective testing strategies. To investigate the practical tradeoffs of different automated strategies for key components of the web-based software testing process, we have designed a framework for web-based software testing that focuses on scalability and evolving the test suite automatically as the applicationýs operational profile changes. We have developed an initial prototype that not only demonstrates how existing tools can be used together but provides insight into the cost effectiveness of the overall approach. This paper describes the testing framework, discusses the issues in building and reusing tools in an integrated manner, and presents a case study that exemplifies the usability, costs, and scalability of the approach.