JOURNAL BROWSE
Search
Advanced SearchSearch Tips
A Study on Optimal Renewal Cycle for Governmental Agency Software
facebook(new window)  Pirnt(new window) E-mail(new window) Excel Download
 Title & Authors
A Study on Optimal Renewal Cycle for Governmental Agency Software
An, Hoon-sang; Bae, Jongho; Kim, Youngsung; Park, Chulhyun;
  PDF(new window)
 Abstract
The demands for additional functionalities and improvements in performance of software increase over time. In particular, increases in software complexity and requirements for quality control attributed to continued maintenance lead to the deterioration of software quality and raises in software life cycle costs. In order to prevent this, software operators have to conduct timely redevelopment of the software. However, the scope of previous studies on timely redevelopment of software is limited to enterprises. We, in this study, suggest a model to derive the optimal cycle for the redevelopment of governmental agency software using Renewal process and discuss its correlation with previous studies.
 Keywords
Governmental Agency Software;Software Maintenance;Software Redevelopment;Renewal Process;
 Language
Korean
 Cited by
 References
1.
B. C. LEE, "An Empirical Study on Decision Criteria of Additional Software Development in Information System Maintenance Contract," Department of Computing, Ph.D. Dissertation, Soongsil Univ., 2013.

2.
Heoung Keun Moon, "Study on Development of Cost Data Based Optimal Life Cycle Model for Financial Information Systems," Department of Information Technology & Management, Ph.D. Dissertation, Konkuk Univ., 2012.

3.
Sung sik Park, "An Empirical Study on the Establishment of the Optimal Economic Life Span Model for the Information Systems," Department of Information Technology & Management, Ph.D. Dissertation, Konkuk Univ., 2011.

4.
S. Korea's Ministry of Security and Public Administration, "A Manual for Operational Performance Measurement of Information Systems," pp.27-31, 2014.

5.
Korea Software Industry Association, "A Guide for Payment of Software Business," 2014.

6.
S. M. Ross, "Stochastic Process," 9th ed. New York: Wiley, 1983.

7.
B. P. Lientz and E. B. Swanson, "Software Maintenance Management Reading," MA: Addison-Wesley, Ch.21, 1980.

8.
J. T. Nosek and P. Palvia, "Software maintanence management: Changes in the last decade," Software Maintanence: Research and Practice, Vol.2, No.3, pp.157-174, 1990.

9.
Gartner, "IT service maturity model, Strategic Analysis Report," 2002.

10.
L. H. Putnam, "A General Empirical Solution to the Macro Software Sizing and Estimating Problem," IEEE Trans. on Software Eng., Vol.SE-4, No.4, pp.345-361, 1978. crossref(new window)

11.
R. D. H. Warburton, "Managing and Predicting the Costs of Real-Time Software," IEEE Trnas. on Software Eng., Vol.SE-9, No.5, pp.562-569, 1983. crossref(new window)

12.
P. Bhatt, G. Shroff, and A. K. Misra, "Dynamics of Software Maintenance," ACM SIGSOFT Software Engineering Notes, Vol.29, No.5, 2004.

13.
E. B. Swanson and E. Dans., "System Life Expectancy and the Maintenance Effort: Exploring Their Equilibration," MIS Quarterly, Vol.24, No.135, pp.277-297, 2000. crossref(new window)

14.
J. Yoo, B. S. Kim, M. S. Choi, and J. Oh, "Estimation of Vendor Cost for Software Maintenance and Repair Outsourcing," Asia Pacific Journal of Information Systems, Vol.16, No.2, pp.143-158, 2006.

15.
IFPUG, "Function Point Counting Practices Manual 4.2," 2004.

16.
NESMA, "Function Point Analysis for Software Enhancement Guideline," Ver.2.2.1, 2009.

17.
C. S. Yoo and E. J. Chung, "A Study on the Improvement for Management Efficiency about the Approach of Applying IT to our Defense Area," The Korean Journal of Defense Analysis, Vol.27, No.2, pp.67-99, 2011.

18.
Notification No.2010-52 of the Ministry of Knowledge and Economy, 2010.

19.
S. Sakthivel, "A Decision Model to Choose between Software Maintenance and Software Redevelopment," Journal of Software Maintenance, Vol.6, pp.121-143, 1994. crossref(new window)

20.
H. Leung and Z. Fan, "Software Cost Estimation," Department of Computing, HongKong Polytechnic University, 2002.

21.
Young-Joon Moon and Sung-Yul Rhew, "Software Replacement Time Prediction Technique Using the Service Level Measurement and Replacement Point Assessment," Journal of KIPS, Vol.2, No.8, pp.527-534, 2013.

22.
S. K. Park, S. W. Lee, and J. H. Park, "A Software Cost Estimation Using Growth Curve Model," Journal of KIPS, Vol.11-D, No.3, pp.597-604, 2004.