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COTS软构件选择决策模型研究 被引量:1

Decision Model for COTS Software Component Selection
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摘要 提出了COTS软构件选择的两阶段决策模型:第1阶段通过案例检索方法进行构件初选;第2阶段利用(0-1)整数目标规划,选出最优构件组合。先进行案例检索,再进行目标规划求解的两阶段方法,减少了计算的复杂度,提高了决策的合理性。 A two-period decision model for COTS software component selection is presented. In the first period, the initial candidates are selected by case-based retrieval. In the second period, a (0-1) integer goal programming model is applied to decide the final candidates. The two-period method declines the complexity of computation and increases the rationality of selection.
作者 原欣伟 覃正 蔡俊
机构地区 西安交通大学管理学院 上海市糖业烟酒有限公司
出处 《计算机工程》 CAS CSCD 北大核心 2006年第11期69-71,共3页 Computer Engineering
基金 国家自然科学基金资助项目(70271058) 陕西省自然科学基金资助项目(2002G01)
关键词 COTS 构件选择 案例检索 目标规划 Commercial off-the-shelf(COTS) Component selection Case-based retrieval Goal programming
分类号 TP311 [自动化与计算机技术—计算机软件与理论]
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参考文献5

  • 1Brownsword L, Obemdorf T, Sledge C A. Developing New Processes for COTS-based Systems [J]. IEEE Software, 2000,17(4): 48-55.
  • 2Boehm B, Abts C. COTS Integration: Plug and Pray?[J]. IEEE Computer, 1999, 32(1): 135-138.
  • 3Sundarraj R P, Talluri S. A Multi-period Optimization Model for the Procurement of Component-based Enterprise Information Technologies[J]. European Journal of Operational Research, 2003, 146(2):339-351.
  • 4Gardler R, Mehandjiev N. Supporting Component-based Software Evolution[J]. Lecture Notes in Computer Science, 2003, 2591(2):103-120.
  • 5Kolodner J. Case-based Reasoning[M]. San Mateo, CA: Morgan Kanfmann, 1993.

同被引文献9

  • 1Szyperski, C., Gruntz, D., & Murer, S. (2004). Compo- nent software: Beyond object-oriented programming. Addison-Wesley Professional.
  • 2Szyperski, C., & P?ster, C. (1996). Component-oriented programming: WCOP'96 workshop report. Special is- sues in object-oriented programming. In Workshop reader of the 10th European conference on object-ori- ented programming (pp. 127 130).
  • 3Stevens, W., Myers, G., & Constantine, L. (1974). Structured design. IBM Systems Journal, 13 (2), 115 139.
  • 4Parsa, S., & Bushehrian, O. (2004). A framework to in- vestigate and evaluate genetic clustering algorithms for automatic modularization of software systems. Lecture Notes in Computer Science, 699- 702.
  • 5Sarkar, S., Kak, A. C., & Nagaraja, N. S. (2005). Met- rics for analyzing module interactions in large software systems. In Proceedings of the 12th Asia Pacific software engineering conference (pp. 264- 271).
  • 6Sarkar, S., P, ama, G. M., & Kak, A. C. (2007). API- based and information-theoretic metrics for measuring the quality of software modularization. IEEE Transac- tions on Software Engineering, 33(1), 14 -32.
  • 7Abreu, F. B., & Goul?o, M. (2001). Coupling and co- hesion as modularization drivers: Are we being over- persuaded. In Proceedings of the ?fth European confer- ence on soRware maintenance and reengineering. Washington, DC, USA: IEEE Computer Society.
  • 8Marian, 1k. M., Luong, L., & Abhary, K. (2006). A genetic algorithm for the optimisation of assembly se- quences. Computers & Industrial Engineering, 50(4),503 - 527.
  • 9王怀军,李军怀,张璟,楼文晓.基于线性规划的构件优选机制研究[J].西安理工大学学报,2010,26(2):186-191. 被引量:2

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计算机工程
2006年 第11期

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