Software Module Clustering Algorithm Using Probability Selection
Tóm tắt
Từ khóa
Tài liệu tham khảo
Wang Y, Chen X, Cao C. Study on cost of application software system maintenance[J]. Computer Engineering, 2001, 27(7): 65–66.
Bishnoi M, Singh P. Modularizing software systems using PSO optimized hierarchical clustering [C] //International Conference on Computational Techniques in Information and Communication Technologies. Washington D C: IEEE, 2016: 659–664.
Hussain I, Khanum A. A novel approach for software architecture recovery using particle swarm optimization[J]. The International Arab Journal of Information Technology, 2015, 12(1): 32–41.
Praditwong K, Harman M, Yao X. Software module clustering as a multi-objective search problem[J]. IEEE Transactions on Software Engineering, 2010, 37(2): 264–282.
Praditwong K, Yao X. A new multi-objective evolutionary optimisation algorithm: The two-archive algorithm [C] //Proceedings of the 2006 International Conference on Computational Intelligence and Security. Washington D C: IEEE, 2006: 286–291.
Praditwong K. Solving software module clustering problem by evolutionary algorithms[C] //Eighth International Joint Conference on Computer Science and Software Engineering (JCSSE 2011). Washington D C: IEEE, 2011: 154–159.
Huang J, Liu J. A similarity-based modularization quality measure for software module clustering problems[J]. Information Sciences, 2016, 342: 96–110.
Sun S, Xia C, Wang L. Survey of the measurement of software structures based on complex networks[J]. CAAI Transactions on Intelligent Systems, 2011, 6(3): 208–212.
Watts D J, Strogatz S H. Collective dynamics of small world networks[J]. Nature, 1998, 393(6684): 440–442.
Barabasi A L, Albert R. Emergence of scaling in random networks[J]. Science, 1999, 286(5439): 509–512.
Wang B, Lu J. Software networks nodes impact analysis of complex software systems[J]. Journal of Software, 2013, 24(12): 2814–2829(Ch).
Potanin A, Noble J, Frean M, et al. Scale-free geometry in object-oriented programs[J]. Communications of the ACM, 2005, 48(5): 99–103.
Kumari A C, Srinivas K. Software module clustering using a hyper-heuristic based multi-objective genetic algorit-hm[C] //Proceedings of the 2013 3rd IEEE International Advance Computing Conference. Ghaziabad: Advance Computing Conference, 2013: 813–818.
Ma Y, He K, Li B, et al. Empirical study on the characteristics of complex networks in networked software[J]. Journal of Software, 2011, 22(3): 381–407(Ch).
Myers C R. Software systems as complex networks: structure, function, and evolvability of software collaboration graphs[J]. Physical Review E, 2003, 68(2): 352–375.
Mitchell B S. A heuristic search approach to solving the software clustering problem[C]//Proceedings of the International Conference on Software. Washington D C: IEEE, 2003: 285–288.
Mancoridis S, Mitchell B S, Chen Y F, et al. Bunch: a clustering tool for the recovery and maintenance of software system structures[C]//Proc of Int Conf of Software Maintenance. Washington D C: IEEE, 1999: 50–59.
Doval D, Mancoridis S, Mitchell B S. Automatic clustering of software systems using a genetic algorithm[C] //Proceesings of IEEE Conference on Software Technology and Engineering Practice(STEP’99). Washington D C: IEEE, 1999: 73–81.
Bavota G, Gethers M, Oliveto R, et al. Improving software modularization via automated analysis of latent topics and dependencies[J]. ACM Trans Softw Eng Method, 2014, 23(1): 1–33.
Kumara A C, Srinivas K. Software module clustering using a fast multi-objective hyper-heuristic evolutionary algorithm[J]. International Journal of Applied Information Systems, 2013, 5(6): 12–13.
Liu C, Liu J, Jiang Z. A multi objective evolutionary algorithm based on similarity for community detection from signed social networks[J]. IEEE Trans Cybern, 2014, 44(12): 2274–2287.
Praditwong K. Solving software module clustering problem by evolutionary algorithms[C] //Eighth International Joint Conference on Computer Science and Software Engineering (JCSSE 2011). Washington D C: IEEE, 2011: 154–159.
Wang G, Zhang Q, Ma X, et al. Granular computing models for knowledge uncertainty[J]. Journal of Software, 2011, 22(4): 676–694(Ch).
Qian G, Zhang L, Zhang L, et al. Modeling method and characteristics analysis of software dependency networks[J]. Computer Science, 2008, 35(11): 239–243(Ch).
Pan W, Li B, Ma Y, et al. Multi-granularity evolution analysis of software using complex network theory[J]. Journal of Systems Science and Complexity, 2011, 24(6): 1068–1082(Ch).
Pan W, Li B, Ma Y, et al. Measuring structural quality of object-oriented software via bug propagation analysis on weighted software networks[J]. Journal of Computer Science and Technology, 2010, 25(6): 1202–1213.
Britoe A F, Goulao M. Coupling and cohesion as modularization drivers: Are we being over-persuaded[C]//Proceedings of the 15th European Conference on Software Maintenance and Reengineering. Washington D C: IEEE Computer Society, 2001: 47–57.
Mahdavi K, Harman M, Hierons R M. A multiple hill climbing approach to software module clustering [C] //Proceedings of the International Conference on Software Maintenance. Washington D C: IEEE, 2003: 315–324.