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| Model de Predicció de Defectes× | Anàlisi de Cobertura de Codi× | |
|---|---|---|
| Camp | Enginyeria de programari | Enginyeria de programari |
| Família | Process / pipeline | Process / pipeline |
| Any d'origen≠ | 2005 | 1988 |
| Autor original≠ | Thomas Ostrand, Elaine Weyuker, Robert Bell | Test Coverage Community |
| Tipus≠ | machine learning model | measurement and analysis |
| Font seminal≠ | Ostrand, T. J., Weyuker, E. J., & Bell, R. M. (2005). Predicting the location and number of faults in large software systems. IEEE Transactions on Software Engineering, 31(4), 340–355. DOI ↗ | Zhu, H., Hall, P. A. V., & May, J. H. R. (1997). Software unit test coverage and adequacy. ACM Computing Surveys, 29(4), 366–427. DOI ↗ |
| Àlies | fault prediction, bug prediction, defect classification | coverage metrics, test coverage, instrumentation-based measurement |
| Relacionats | 4 | 4 |
| Resum≠ | Defect prediction models forecast the likelihood of software faults in code modules using statistical or machine learning approaches. Pioneered by Ostrand, Weyuker, and Bell (2005), these models correlate code metrics (complexity, churn, coupling) with historical defect data to identify high-risk components. Organizations use predictions to allocate testing resources, guide code review, and prioritize refactoring. | Code coverage analysis measures the extent to which source code is executed by a test suite, quantifying which lines, branches, or paths are exercised. Tools instrument code to track execution, reporting coverage percentages and identifying untested regions. Coverage analysis guides test creation, detects dead code, and validates test adequacy in quality assurance processes. |
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