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Measuring software reliability

  • Published:2011-11-14 Issue:6 Volume:36 Page:1-6
  • ISSN:0163-5948
  • Container-title:ACM SIGSOFT Software Engineering Notes
  • language:en
  • Short-container-title:SIGSOFT Softw. Eng. Notes

Author:

Kumar Ravinder1,Khatter Kiran1,Kalia Arvind2

Affiliation:

1. Ansal Institute of Technology, Sector -- 55, Gurgaon, India

2. H P University, Shimla, India

Abstract

Software reliability is an essential part of software engineering to ensure the quality of a system. There are various techniques, which can be used in building models for predicting quality attributes. This paper presents a Fuzzy model for software reliability prediction. We have proposed three parameters Availability, Failure Probability and Recoverability as an integrated measure of software reliability. Fuzzy Model provides a way to arrive at a discrete Reliability Non-functional requirement (NFR) in contrast to imprecise, vague and ambiguous. This model will help us to evolve intermediate stages between reliable state and unreliable state of a system. Results obtained by proposed model show that this is suitable for predicting software reliability of the software.

Publisher

Association for Computing Machinery (ACM)

Reference23 articles.

1. Software Requirements;Yeh R.;New Directions and Perspectives. Handbook of Software Engineering,1984

2. A taxonomy of current issues in requirements engineering

3. The Treatment of Non-Functional Requirements in MIKE. LNCS 989 (Software Engineering: ESEC'95);Landes D.;Springer-Verlag,1995

4. Representing and using nonfunctional requirements: a process-oriented approach

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1. Analyzability of SOA using Soft Computing Technique;2022 10th International Conference on Reliability, Infocom Technologies and Optimization (Trends and Future Directions) (ICRITO);2022-10-13

2. Models for Testing Modifiable Systems;Probabilistic Modeling in System Engineering;2018-09-26

3. Dynamic Data-Driven Fuzzy Modeling of Software Reliability Growth;Towards Advanced Data Analysis by Combining Soft Computing and Statistics;2013
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