Optimization techniques for Automated Test Data Generation
Tesis Doctoral a presentar por Francisco Javier Ferrer Urbano y dirigida por Dr. Enrique Alba Torres y Dr. Francisco Chicano garcía, con proyecto de tesis inscrito a fecha de 3 de Diciembre de 2009.
Documentación a presentar
Documentacion requerida por la Comisión de Doctorado para depositar la Tesis Doctoral en el departamento de Lenguajes y Ciencias de la Computación de la Universidad de Málaga.
Memoria de la tesis doctoral
Formulario de solicitud de admisión a trámite de tesis doctoral
Anexo I
Curriculum Vitae
Propuesta del tribunal
Informes de idoneidad:
- Dr. Javier Tuya
- Dr. Gabriel Luque
- Dr. Guiliano Antoniol
- Dr. Raúl Romero
- Dr. Shaukat Ali
- Dr. Francisco Luna (Suplente)
- Dr. Daniel Rodriguez (Suplente)
Doctorado Europeo
- Anexo I. Certificado de la estancia original: Estancia 3 meses en Berlin (Alemania)
- Anexo II. Informe sobre los evaluadores externos
- Evaluaciones externas (2) en sobre cerrado
- CV de cada evaluador externo
- Anexo III. Acta del tribunal evaluador
Solicitud de cambio de título de tesis
Artículos que avalan esta tesis doctoral:
International Journals indexed by ISI-JCR
[1] Ferrer, J., Kruse P. M., Chicano F., and Alba E. (2014). Search based algorithms for test sequence generation in functional testing. Information and Software Technology.
[2] Ferrer, J., Chicano F., and Alba E. (2013). Estimating software testing complexity. Information and Software Technology. 55, 2125 − 2139.
[3] Ferrer, J., Chicano F., and Alba E. (2012). Evolutionary algorithms for the multi-objective test data generation problem. Software Practice and Experience 42, 1331 − 1362.
International Journals
[4] Ferrer, J., Chicano F., and Alba E. (2010). Correlation between static measures and code coverage in evolutionary test data generation. International Journal of Software Engineering and its Applications. 4, 57−79.
International Conferences
[5] Lopez-Herrejon, R. Erick, Ferrer J., Chicano F., Haslinger E. Nicole, Egyed A., and Alba E. (2014). A parallel evolutionary algorithm for prioritized pairwise testing of software product lines. Genetic and Evolutionary Computation Conference, GECCO ’14, Vancouver, BC, Canada, July 12−16, 2014. p. 1255−1262.
[6] Lopez-Herrejon, R. Erick, Ferrer J., Chicano F., Egyed A., and Alba E. (2014). Comparative analysis of classical multi-objective evolutionary algorithms and seeding strategies for pairwise testing of Software Product Lines. Proceedings of the IEEE Congress on Evolutionary Computation, CEC 2014, Beijing, China, July 6−11, 2014. p. 387−396.
[7] Lopez-Herrejon, R. E., Chicano F., Ferrer J., Egyed A., and Alba E. (2013). Multi-objective Optimal Test Suite Computation for Software Product Line Pairwise Testing. IEEE International Conference on Software Maintenance, Eindhoven, The Netherlands, September 22−28, 2013. p. 404−407.
[8] Ferrer, J., Kruse P. M., Chicano F., and Alba E. (2012). Evolutionary algorithm for prioritized pairwise test data generation. Genetic and Evolutionary Computation Conference, GECCO ’12, Philadelphia, PA, USA, July 7−11, 2012. p. 1213−1220.
[9] Ferrer, J., Chicano F., and Alba E. (2011). Benchmark Generator for Software Testers. Artificial Intelligence Applications and Innovations - 12th INNS EANN-SIG International Conference, EANN 2011 and 7th IFIP WG 12.5 International Conference, AIAI 2011, Corfu, Greece, September 15−18, 2011, Proceedings, Part II. p. 378−388.
[10] Ferrer, J., Chicano F., and Alba E. (2009). Dealing with inheritance in OO evolutionary testing. Genetic and Evolutionary Computation Conference, GECCO 2009, Proceedings, Montreal, Qubec, Canada, July 8−12, 2009. p.1665−1672.