[1] Kim Jung-Min, Adam P, Gregg R. An Empirical Study of Regression Test Application Frequency[J]. Software Testing, Verification & Reliability, 2005, 15(4): 257-279. [2] 王晓华, 张 涛, 尚景亮, 等. 多维标度法选择回归测试子 集[J]. 计算机科学, 2010, 37(11): 131-134, 140. [3] Harrold M J, Gupta R, Soffa M L. A Methodology for Controlling the Size of a Test Suite[J]. ACM Transactions on Software Engineering and Methodology, 1993, 2(3): 270-285. [4] Chen T Y, Lau M F. A New Heuristic for Test Suite Reduction[J]. Information and Software Technology, 1998, 40(5): 347-354. [5] Jeffrey D, Gupta N. Improving Fault Detection Capability by Selectively Retaining Test Cases During Test Suite Reduction[J]. IEEE Transactions on Software Engineering, 2007, 33(2): 108-123. [6] Black J, Melachrinoudis E, Kaeli D. Bi-criteria Models for All-uses Test Suite Reduction[C]//Proc. of International Conference on Software Engineering. Edinburgh, Scotland, UK: [s. n.], 2004: 106-115. [7] 蔡素梅, 梅登华. 基于动态切片和UML图的回归测试用例生 成[J]. 计算机工程, 2009, 35(8): 70-72. [8] 刘 清, 刘少辉, 郑 非. Rough逻辑及其在数据约简中的应 用[J]. 软件学报, 2001, 12(3): 415-419. [9] Pawlak Z. Rough Sets[J]. International Journal of Computer and Information Sciences, 1982, 11(5): 341-356. [10] Skowron A, Rauszer C. The Discernibility Matrics and Function in Information System[M]//Slowinskied R. Intelligent Decision Support Handbook of Application and Advances of the Rough Sets Theory. Dordreecht, Netherlands: Kluwer Academic Publishers, 1992. [11] Guan J W, Bell D A. Rough Computational Methods for Information Systems[J]. Artifical Intelligence, 1998, 105(1/2): 77-103. [12] 王亚英, 张春慨, 邵惠鹤. 变论域知识约简算法[J]. 上海交通大学学报, 2002, 36(4): 566-569.
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