郭肇强  等:基于信息检索的缺陷定位:问题、进展与挑战                                                      2853


        [109]    Manning CD, Raghavan P, Schütze H. Introduction to Information Retrieval. New York: Cambridge University Press, 2008. [doi:
             10.1002/asi.v61:4]
        [110]    Gay G, Haiduc S, Marcus A, Menzies T. On the use of relevance feedback in IR-based concept location.In: Proc. of the Int’l Conf.
             on Software Maintenance. 2009. 351−360. [doi: 10.1109/ICSM.2009.5306315]
        [111]    Hofmann T.  Probabilistic latent  semantic indexing.  In:  Proc.  of the  Int’l Conf.  on Research and Development in  Information
             Retrieval. Berkeley, 1999. 50−57. [doi: 10.1145/312624.312649]
        [112]    Chen IX, Jaygarl H, Yang CZ, Wu PJ. Information retrieval on bug locations by learning co-located bug report clusters. In: Proc. of
             the Annual Int’l ACM SIGIR Conf. on Research and Development in Information Retrieval. 2008. 801−802. [doi: 10.1145/1390334.
             1390511]
        [113]    Strohman T, Metzler D, Turtle H, Croft WB. Indri: A language model-based search engine for complex queries. In: Proc. of the
             ICIA. 2005. 2−6.
        [114]    Bettenburg  N, Just S, Schröter  A.  What  makes  a good bug report? In: Proc. of  the Joint  Meeting of the  European Software
             Engineering Conf. and the Symp. on the Foundations of Software Engineering. 2008. 308−318. [doi: 10.1145/1453101.1453146]
        [115]     Dallmeier V, Zimmermann T. Extraction of bug localization benchmarks from history. In: Proc. of the Int’l Conf. on Automated
             Software Engineering. 2007. 433−436. [doi: 10.1145/1321631.1321702]
        [116]    Abreu R, Zoeteweij  P, Golsteijn R, Gemund AJC. A practical evaluation  of  spectrum-based  fault localization. The Journal  of
             Systems and Software, 2009,82(11):1780−1792. [doi: 10.1016/j.jss.2009.06.035]
        [117]    Lee HJ, Naish L, Ramamohanarao K. Effective software bug localization using spectral frequency weighting function. In: Proc. of
             the Int’l Computer Software and Applications Conf. 2010. 218−227. [doi: 10.1109/COMPSAC.2010.26]
        [118]    Ribeiro HL, Araujo RPA, Chaim ML, Souza HA, Kon F. Evaluating data-flow coverage in spectrum-based fault localization. In:
             Proc. of the Int’l Symp. on Empirical Software Engineering and Measurement. 2019. 1−11. [doi: 10.1109/ESEM.2019.8870182]
        [119]    Ma CY, Nie CY, Chao WC. A  vector  table medel-based systematic analysis  of  spectral  fault  localization  techniques.  Software
             Quality Journal, 2019,27(1):43−78. [doi: 10.1007/s11219-018-9402-1]
        [120]    Hong S, Lee B, Kwak T, Jeon Y, Ko B, Kim Y, Kim M. Mutation-Based fault localization for real-worldmultilingual programs. In:
             Proc. of the Int’l Conf. on Automated Software Engineering. 2015. 464−475. [doi: 10.1109/ASE.2015.14]
        [121]    Liu Y, Li Z, Wang LX, Hu ZW, Zhao RL. Statement-Oriented mutant reduction strategy formutation based fault localization. In:
             Proc. of the Int’l Conf. on Software Quality, Reliability and Security. 2017. 126−137. [doi: 10.1109/QRS.2017.23]
        [122]    Liu Y, Li Z, Zhao RL, Gong  P. An optimal mutation execution  strategy for  cost reduction ofmutation-based  fault  localization.
             Information Sciences, 2018,422:572−596. [doi: 10.1016/j.ins.2017.09.006]
        [123]    Oliveira AAL, Camilo-Junior CG,  Freitas ENA, Vincenzi AMR. FTMES: A failed-test-oriented  mutant  execution strategy for
             mutation-based fault localization. In: Proc. of the Int’l Symp. on Software Reliability Engineering. 2018. 155−165. [doi: 10.1109/
             ISSRE.2018.00026]
        [124]    He T, Wang XM, Zhou XC, Li WJ, Zhang ZY, Cheung SC. A software fault localization technique based on program mutations.
             Chinese Journal of Computers, 2013,36(11):2236−2244 (in Chinese with English abstract). [doi: 10.3724/SP.J.1016.2013.02236]
        [125]    Papadakis M,  Traon YL.  Metallaxis-FL: Mutation-based fault localization. Software  Testing  Verification  and Reliability  ,,
             2015,25(5-7):605−628. [doi: 10.1002/stvr.1509]
        [126]    Wu RX, Zhang HY, Cheung SC, Kim SH. CrashLocator: Locating crashing faults based on crash stacks. In: Proc. of the Int’l Symp.
             on Software Testing and Analysis. 2014. 204−214. [doi: 10.1145/2610384.2610386]
        [127]    Wu RX,  Wen M, Cheung  SC, Zhang HY. ChangeLocator:  Locate crash-inducing changes  based  on crash reports. Empirical
             Software Engineering, 2018,23(5):2866−2900. [doi: 10.1007/s10664-017-9567-4]
        [128]    Guo  ZQ, Li  YH, Ma WWY, Zhou YM, Lu  HM,  Chen L, Xu BW. Boosting crash-inducing change  localization with  rank-
             performance-based feature subset selection.  Empirical  Software  Engineering, 2020,25(3):1905−1950. [doi: 10.1007/s10664-020-
             09802-1]