Table of Contents

• A reliability assurance database for analysis of medical product performanceRichard C. Fries, Kenneth J. Stoeger, David A. Zombatfalvy, James A. Roberts, Jeffrey M. Leen, Tani A. Grove. 9-14 [doi]
• The need for a rigorous development and testing methodology for medical softwareWilliam A. Reupke, E. Srinivasan, Paul V. Rigterink, David N. Card. 15-20 [doi]
• Failsafe design of closed loop systemsAlvis J. Somerville. 23-27 [doi]
• The travail involved in getting FDA approval . . . an overview on what it took to get FDA approval of a medical device with computer technology (A recent experience)Albert Paul. 28-29 [doi]
• Applications of a generalized network-based expert system shell-artificial intelligence mini-tutorial. 1James R. Slagle. 33-42 [doi]
• Temporal reasoning in medicine with an example in cystic fibrosis patient management-artificial intelligence mini-tutorial. 2Laiwah A. Leung, James R. Slagle, Stanley M. Finkelstein, Warren J. Warwick. 43-44 [doi]
• Experimenting with artificial neural networks-artificial intelligence mini-tutorial. 3Erach A. Irani, John M. Long, James R. Slagle. 45-46 [doi]
• On the exploitation of a commercially available parallel processing architecture for medical imagingMartin R. Stytz, Gideon Frieder, Ophir Frieder. 49-55 [doi]
• The cardiac volume computer: the development of a real time graphics system using a commercial microcomputer hostJohn A. Hauck. 56-59 [doi]
• Orthopedic implant design, analysis, and manufacturing systemR. Larry Dooley, Ajit Dingankar, G. Heimke, E. Berg. 60-64 [doi]
• Adaptive noise cancelling in computed tomographyNagaraja Srinivasa, Kalpathi R. Ramakrishnan, K. Rajgopal. 65-68 [doi]
• Diagnostic algorithms and clinical diagnostic thinkingJoseph M. Tonkonogy, James Armstrong. 71-74 [doi]
• An expert system for medical diagnosisN. Congiliaro, Antonella Di Stefano, Orazio Mirabella. 75-81 [doi]
• An expert system architecture and its application to the evaluation of scintigraphic image sequencesGerhard Sagerer, Heinrich Niemann. 82-88 [doi]
• CORP-a new recovery procedure for VLSI processor arraysElias S. Manolakos, Sun-Yuan Kung. 91-95 [doi]
• Reliability and safety analysis in medical applications of computer technologyBany W. Johnson, James H. Aylor. 96-100 [doi]
• Toward a fault-tolerant processor for medical applicationsDavid F. McAllister, H. Troy Nagle. 101-104 [doi]
• Exploratory and directed analysis of medical information via dynamic classification treesChristopher Hughes. 107-111 [doi]
• The `understanding' of natural language in CAI and analogous mental processesMichael Anbar, Ada Anbar. 112-117 [doi]
• Temporal reasoning in medical expert systemsSourmitra Dutta. 118-122 [doi]
• The need of computers in the physician's officeB. B. Aberst. 125-128 [doi]
• Criteria for an adaptive fractional inspired oxygen controllerJohn C. Taube, Ravi Pillutla, John Mills. 129-132 [doi]
• A computerized random element stereogram generator: Design and experimentsMohammad S. Obaidat, J. M. Jagadeesh, Lawrence E. Leguire. 133-138 [doi]
• Labor and delivery information systemM. D. Schwartz, P. Irani, L. P. Smith, C. Ledford, W. Robert J. Funnel. 139-143 [doi]
• Quality begins at home: The role of project leader in software quality assuranceLynn D. Ihlenfeldt. 147-151 [doi]
• The integration of a formal safety analysis into the future software engineering process: An example from the pacemaker industryDonald Santel, Charles Trautmann, W. Lui. 152-154 [doi]
• How users evaluate: The target strikes backMargaret G. E. Peterson. 155-159 [doi]
• Interactive systems to assume informed patient consentRobert Woll, Laurie L. Fitch, Paul F. Clarkson, John M. Long. 163-166 [doi]
• Lessons learned while implementing expert systems in the real world of clinical trials data analyses: The POSCH AI projectJohn M. Long, James R. Slagle, Michael R. Wick, Erach A. Irani, Patrick R. Weisman, John P. Matts, Paul F. Clarkson. 167-172 [doi]