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Softw are Maintainability Evaluation Based on Quantitive Model

Softw are Maintainability Evaluation Based on Quantitive Model
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摘要 Software maintainability is one of the most important factors of software quality,but it is seriously difficult to evaluate the maintainability. Without evaluation,it is impossible to control. To estimate software maintainability state,parameter system of software was built up and maintainability state was defined into three states.Thought of application on maintainability evaluation based on hidden Markov chain( HMC) and fuzzy inference was presented.Three-state maintainability estimation model was constructed. To testify the feasibility of the model, a real example of software maintenance activity was carried out and the result from the example validated that the results of this study were applicable. Software maintainability is one of the most important factors of software quality,but it is seriously difficult to evaluate the maintainability. Without evaluation,it is impossible to control. To estimate software maintainability state,parameter system of software was built up and maintainability state was defined into three states.Thought of application on maintainability evaluation based on hidden Markov chain( HMC) and fuzzy inference was presented.Three-state maintainability estimation model was constructed. To testify the feasibility of the model, a real example of software maintenance activity was carried out and the result from the example validated that the results of this study were applicable.
作者 郝学良 王毅刚 刘丽
机构地区 Maintenance Engineering Institute
出处 《Journal of Donghua University(English Edition)》 EI CAS 2015年第1期154-156,共3页 东华大学学报(英文版)
关键词 software maintainability hidden Markov chain(HMC) model fuzzy inference evaluation model software maintainability hidden Markov chain(HMC) model fuzzy inference evaluation model
分类号 TP311.5 [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15

  • 1Mccabe T J. A Complexity Measurement[J]. IEEE Transactionon Software Engineering,1976,2(4): 302-308.
  • 2Kumar R. Differential Sampling for Fast Frequency Acquisition via Adaptive Least Squares Algorithm[C]. Proceeding of the International Telemetering Conference, San Diego, CA, USA,1987:134-138.
  • 3Halstead M H. Elements of Software Science[M]. Amsterdam: Elsevier North-Holland,1977:23-28.
  • 4高建华,张丹.Constructing Test Suites for k-n Softw are System[J].Journal of Donghua University(English Edition),2012,29(3):263-267. 被引量:2
  • 5Sprenkle S, Sampath S, Gibson E, et al. An Empirical Comparison of Test Suit Reduction Techniques for User-Session-Based Testing of Web Applications[C]. Proceedings of the 1st IEEE Interational Conference on Software Maintenance (ICSM), Shenzhen, China,2005: 168-174.
  • 6Richard L. A Survey of Communicaton Protocol Testing[J]. Journal of Systems and Software,2002,34(5): 23-28.
  • 7Hurd W, Statman J I. Hish Dynamic GPS Receiver Using Maximum Likelihood Estimation and Frequency Tracking[J]. IEEE Transactions on AES,1987,21(3): 134-145.
  • 8Mohammad A, Wei L. An Empirical Validation of Object-Oriented Metrics in Two Different Iterative Software Processes[J]. IEEE Transactions on Software Engineering,2003,29(11):1043-1049.
  • 9刘振宇,杨根兴,蔡立志.Software Test Case Generation with Adequacy Analysis on Scenario-Based Testing[J].Journal of Donghua University(English Edition),2011,28(2):139-144. 被引量:3
  • 10Deligiannis I, Shepperd M, Roumeliotis M, et al. An Empirical Investigation of an Object-Oriented Design Heuristic for Maintainability[J]. The Journal of Systems and Software,2003,65(2): 127-139.

二级参考文献38

  • 1Lei Y, Kacker R, Kuhn D R, et al. IPOG: a General Strategy for T-Way Software Testing [ C ]. The 14th Annual IEEE International Conference and Workshops on the Engineering of Computer-Based Systems, Tucson, USA, 2007 : 549-556.
  • 2Lei Y, Kacker R, -Kuhn D R, et al. IPOG/IPOG -D : Efficient Test Generation for Multi-way Combinatorial Testing [ J ]. Software Testing, Verification and Reliability, 2008, 18 ( 13 ) : 125-148.
  • 3Pesaran M H. A Pair-Wise Approach to Testing for Output and Growth Convergence [ J]. Journal of Econometrics, 2007, 138 ( 1 ) : 312-355.
  • 4Forbes M, Lawrence J, Lei Y, et al. Refining the In-Parameter- Order Strategy for Constructing Covering Arrays [ J ]. Journal of Research of the National Institute of Standards and Technology, 2008, 113(5): 287-297.
  • 5Calvagna A, Gargantini A. IPO-s: Incremental Generation of Combinatorial Interaction Test Data Based on Symmetries of Covering Arrays[ C]. IEEE International Conference on Software Testing, Verification, and Validation Workshops, Vancouver, Canada, 2009: 10-18.
  • 6Cohen D M, Dalai S R, Fredman M L, et al. The AETG System: an Approach to Testing Based on Combinatorial Design [ J]. IEEE Transaction on Software Engineering, 1997, 23 ( 7 ) : 437 -443.
  • 7Cohen D M, Dalal S R, Kajla A, et al. The Automatic Efficient Tests Generator [ C ]. Proceedings of the 5th International Symposium on Software Reliability Engineering, Monterey, USA, 1994: 303-309.
  • 8DalalS R, Patton G C. Automatic Efficient Test Generator (AETG) : a Test Generation System for Screen Testing, Protocol Verification, and Feature Interactions Testing[ DB/CD ]. Internal Bellcore Technical Memorandum, 1993.
  • 9Tai K C, Lei Y. A Test Generation Strategy for Pairwise Testing [ J]. IEEE Transaction on Software Engineering, 2002, 28 ( 1 ) : 109-111.
  • 10Lei Y, Tai KC. In-Parameter-Order: a Test Generation Strategy for Pairwise Testing [ C]. Proceedings of the 3rd I EEE International Symposium on High-Assurance Systems Engineering, Washington DC, USA, 1998: 254-261.

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Journal of Donghua University(English Edition)
2015年 第1期

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