Harrold M J,Gupta R,Soffa M L. A methodology for controlling the size of a test suite[J]. ACM Transaction on Software Engineering and Methodology,1993,2(3): 270 - 285.
[2]
Chvatal V. A rgreedy heuristic for the set-covering problem[J].Mathematics of Operations Research,1974,4(3):233 - 235.
[3]
Chen T Y,Lau M F. A new heuristic for test suite reduction [J].Information and Software Technology,1998,40(5 /6):47 - 354.
[4]
Chen T Y,Lau M F. On the completeness of a test suite reduction strategy [J]. The Computer Journal,1999,42(5):30 - 440.
[5]
Chen T Y,Lau M F. Dividing strategies for the optimization of a test suite [J]. Information Processing Letters,1996,60(3):35- 141.
[6]
Mansour N,FakinK E. Simulated annealing and genetic algorithms for optimal regression testing[J]. Journal of Software Maintenance:Research and Practice,1999,11(1):19 - 34.
[7]
Rothermel G,Harrold M J,Ostrin J,et al. An empirical study of the effects of minimization on the fault detection capabilities of test suites [J]. Software Maintenance,1998(11): 34 - 43.
[8]
Wong W E,Horgan J R,London S,et al. Effect of test set minimization on fault detection effectiveness [J]. Software: Practice and Experience,1998,28(4): 347 - 369.
Jeffrey D,Gupta N. Test Suite Reduction with Selective Redundancy[C]/ /IEEE International Conference on Software Maintenance. Budapest: IEEE Computer society,2005: 549 - 558.
[12]
Jeffrey D,Gupta N. Improving fault detection capability by selectively retaining test cases during test suite reduction [J]. IEEE Transaction on Software Engineering,2007,33(2):108 - 123.
