E-raamat: Ensuring Software Reliability [Taylor & Francis e-raamat]

About the Series Preface INRODUCTION TO SOFTWARE RELIABILITY
Introduction Measurement and Analysis of Software Reliability Development
Techniques for Reliable Software Improving the Process Management of the
Process Summary Defining Software Reliability Software Reliability
Definitions How Can Software Be Unreliable? Why Is Software Reliability
Important Today? The Cost of Unreliable Software Summary References Software
Failures and Failure Processes Software Errors, Faults, and Failures Software
Versus Hardware Failures Software Versus Hardware Failure Process Summary
References Government and Industry Objectives Measurement of Software
Reliability and Goals for Improving it Allocations for System and Software
Reliability Summary References Factors that Affect Software Reliability
Methodologies and Tools Learning Factor Organization Documentation Complexity
Environment Presence of Prototyping Requirements Translation and Traceability
Test Methodology Maintenance Schedule Language Existence of Similar Software
Qualitative Characteristics of Software Tradeoffs of Design Parameters
Summary References Software Reliability Terms and Definitions Types of
Software Errors Criticality of Software Errors Types of Software Testing
Software Reliability Testing Randomness of Software Faults Distribution of
Software Faults Software Reliability Parameters Summary References MEASURING
SOFTWARE RELIABILITY Software Reliability Data Collection Collecting and
Measuring Error Data Via the Problem-Reporting Process Process Data to Be
Collected Product Data to Be Collected and Measured Case Studies Summary
References Software Reliability Models Software Reliability Model Parameters
The Musa Models Shooman's Model Jelinski-Moranda Deutrophication Model Lipow
Modified Jelinski-Moranda Model Goel-Okumoto Model Jelinski-Moranda Geometric
Deutrophication Model Duane Growth Model Schick-Wolverton Model Leone Test
Coverage Model Error Seeding Models Dual Test Group Model Testing Success
Model Weibull Model Predictive Models Case Studies of Reliability Models
Summary References IMPROVING SOFTWARE RELIABILITY Designing for More
Reliable Software Structured Design and Code Conventions for a Structured
Design Documenting Source Code Reusability Fault Tolerance and Error
Prevention Summary References Testing and Maintaining for More Reliable
Software Structural Complexity and Structured Testing Algorithm Testing
Logical Testing Maintenance and Regression Testing Functional Testing Summary
References Software Analyses Fault-Tree Analysis Failure Modes Effects and
Criticality Analysis Summary References Automating Software Reliability Tools
for Estimating Software Reliability Analysis Tools Design Tools Tools that
Compute Complexity Tools that Produce Test Cases Configuration Management
Tools Summary References MANAGEMENT OF SOFTWARE RELIABILITY Developing a
Program Plan for Software Reliability Steps for Implementing Software
Reliability at Your Organization Implementing Software Reliability on a
Particular Project Medium- and Long-Term Objectives Lessons Learned Summary
References Index

Ann Marie Neufelder