Table of Contents

• Current trends of the software reliability in Japan and needs of future related activitiesKoji Torii. 2-3 [doi]
• Automated testing support for a robot tape libraryAnneliese von Mayrhauser, Stew Crawford-Hines. 6-14 [doi]
• INRETS experience of the highly critical software validation of the MAGGALY subwayAnna Stuparu, Patrick Ozello, François Baranowski. 15-24 [doi]
• A coverage analysis tool for the effectiveness of software testingMichael R. Lyu, Joseph R. Horgan, Saul London. 25-34 [doi]
• Engineering reliable softwareClaes Wohlin. 36-43 [doi]
• Designing reliable softwareJohn C. Munson, Ruth H. Ravenel. 45-54 [doi]
• Controlling software reliability during developmentG. W. Baumann. 55-59 [doi]
• A systematic approach to software reliability modelingR. Follenweider, Richard M. Karcich, George J. Knafl. 62-70 [doi]
• Enhancing accuracy of software reliability predictionMichael Naixin Li, Yashwant K. Malaiya. 71-79 [doi]
• The effect of correlated faults on software reliabilityKang Wu, Yashwant K. Malaiya. 80-89 [doi]
• Reliability prediction of distributed embedded fault-tolerant systemsFrederick T. Sheldon, Hsing Mei, Seung-Min Yang. 92-102 [doi]
• System reliability analysis of an N-version programming applicationJoanne Bechta Dugan, Michael R. Lyu. 103-111 [doi]
• Dependability modeling and evaluation of recovery block systemsKaterina Goseva-Popstojanova, Aksenti Grnarov. 112-120 [doi]
• Panel: Field Failures And Reliability In OperationRam Chillarege, Ravishankar K. Iyer, Jean-Claude Laprie, John D. Musa. 122-126 [doi]
• Complexity metrics for distributed programsJingde Cheng. 132-141 [doi]
• Optimal selection of failure data for predicting failure countsNorman F. Schneidewind. 142-149 [doi]
• Software recreate problems estimated to range 10-20 percent: A case study on two operating system productsRam Chillarege, Bonnie K. Ray, Al Garrigan, Dave Ruth. 150-158 [doi]
• Reliability of uniprocessor and multiprocessor real-time artificial intelligence planning systemsIng-Ray Chen, Ta-Wei Tsao, Farokh B. Bastani. 160-167 [doi]
• A hierarchical object-oriented approach to fault tolerance in distributed systemsS. Krishna, T. Diamond, V. S. S. Nair. 168-177 [doi]
• Adding capability checks enhances error detection and isolation in object-based systemsNasser A. Kanawati, Ghani A. Kanawati, Jacob A. Abraham. 182-191 [doi]
• A mathematical comparison of Software Breeding and Community Error Recovery in multiversion softwareKazuyuki Shima, Ken-ichi Matsumoto, Koji Torii. 192-201 [doi]
• A new fault tolerant distributed algorithm for longest paths in a DAGSrinivasan Chandrasekar, Pradip K. Srimani. 202-206 [doi]
• System simulation testing: Pre-delivery testing to ensure system dependabilityShin'ichi Uryu, Mariko Shimizu. 208-217 [doi]
• Robustness of optimum software release policiesMing Zhao, Min Xie 0001. 218-225 [doi]
• Using algebraic specifications to find sequencing defectsKurt M. Olender, James M. Bieman. 226-232 [doi]
• Experience in software reliability: From data collection to quantitative evaluationKarama Kanoun, Mohamed Kaâniche, Jean-Claude Laprie. 234-245 [doi]
• A quantitative risk assessment method for space flight software systemsAlice T. Lee, Todd R. Gunn. 246-252 [doi]
• Software reliability measurement and modeling for multiple releases of commercial softwareJeff Tian, Peng Lu. 253-260 [doi]
• On the need for simulation for better characterization of software reliabilityAnneliese von Mayrhauser, Yashwant K. Malaiya, Pradip K. Srimani, James Keables. 264-273 [doi]
• TERSE: A tool for evaluating software reliability modelsMei-Hwa Chen, Michael K. Jones, Aditya P. Mathur, Vernon Rego. 274-283 [doi]
• Infinite failure models for a finite world: A simulation study of the fault discovery processWendell D. Jones, David Gregory. 284-293 [doi]
• Panel: Achieving Success in Measurement and Reliability ModelingTed W. Keller, John C. Munson, Norman F. Schneidewind, George E. Stark. 296-300 [doi]
• A neural network modeling methodology for the detection of high-risk programsTaghi M. Khoshgoftaar, David L. Lanning, Abhijit S. Pandya. 302-309 [doi]
• A neural network approach for software reliability growth modeling in the presence of code churnNachimuthu Karunanithi. 310-317 [doi]
• Testing and reliability of logic programsAlireza Azem, Fevzi Belli, Oliver Jack, Piotr Jedrzejowicz. 318-327 [doi]