Empirical-based software defect content estimation improvement

[1] Humphrey W S. Introduction to the team software process [M]. Massachusetts:Addison Wesley Longman Inc, 2000. 335~358 [2] Burnham K P, Overton W S. Robust estimation of population size when capture probabilities vary among animals [J]. Ecology, 1979, 60(5):927~936 [3] Otis D, Burnham K, White G, et al. Statistical inference from capture data on closed animal populations [J]. Wildlife Monographs, 1978,62:1~135 [4] Chao A, Lee S M, Jeng S L. Estimating population size for capture-recapture data when capture probabilities vary by time and individual animal [J]. Biometrics, 1992, 48(1):201~216 [5] Briand L C, Emam K E, Freimut B G, et al. A comprehensive evaluation of capture-recapture models for estimating software defect content [J]. IEEE Transactions on Software Engineering, 2000, 26(6):518~540 [6] Wiel S A V, Votta L G. Assessing software designs using capture-recapture methods [J]. IEEE Transactions on Software Engineering, 1993, 19(11):1045~1054 [7] Emam K E, Laitenberger O, Evaluating capture-recapture models with two inspectors [J]. IEEE Transactions on Software Engineering, 2001, 27(9):851~864 [8] Wohlin C, Runeson P, Brantestam J. An experimental evaluation of capture-recapture in software inspections[J]. Software Testing, Verification and Reliability, 1995, 5(4):213~232 [9] Runeson P, Wohlin C. An experimental evaluation of an experience-based capture-recapture method in software code inspections [J]. Empirical Software Engineering, 1998, 3(3):381~406 [10] Peterson H, Wohlin C. An empirical study of experience-based software defect content estimation methods . In:Titsworth F M. Proceedings of the 10th International Symposium on Software Reliability Engineering . USA:IEEE, 1999. 126~135