Objectives and Organization of the Workshop.- Designers' Criteria for Choosing Human Performance Models.- Operator Workload for Military System Acquisition.- Workload Prediction, Diagnosis, and Continuing Challenges.- The Development and Application of Models to Predict Operator Workload During System Design.- W/INDEX: A Predictive Model of Operator Workload.- A Model for Performing System Performance Analysis in Predesign.- On the Modeling of Manual Control Tasks.
- Models of Human Monitoring and Decision Making in Vehicle and Process Control.- Target Acquisition: Performance Measures, Process Models, and Design Implications.- Modelling of Auditory Masked Thresholds in Humans.- Dynamic Systems Analysis Programs with Classical and Optimal Control Applications of Human Performance Models.- The Optimal Control Model for Manually Controlled Systems.- Engineering-Based Approaches to Human Performance Modeling.- Micro SAINT -- A Tool for Modeling Human Performance in Systems.- Analysis of a Procedure for Multiple Operator Task Performance on Submarines Using a Network Model.
- Application of SLAM for Modeling and Analysing Pilot's Rule-Based Behavior on an Automated Landing Approach.- Models of Multitask Situations.- The Human Operator Simulator (HOS-IV).- Use of Crew Performance Models and the Development of Complementary Mathematical Techniques to Promote Efficient Use of Analytic Resources.- Systematic Modeling of Multioperator Systems to Evaluate Design Concepts.- Metacrew: Simulating Operator Teams in a Sensor Data Processing System.- A Survey of Ergonomic Models of Anthropometry, Human Biomechanics, and Operator-Equipment Interfaces.- Applications of SAMMIE and the Development of Man Modelling.
- Use of Biomechanical Static Strength Models in Workspace Design.- Representation of Man Using CAD Technology: User Beware.- Task-Oriented Computer Animation of Human Figures.- SAFEWORK: Software to Analyse and Design Workplaces.- Selecting Learning Curve Models for Human Operator Performance.- Acquisition and Retention of Skills.- Human Performance Models for Training Design.- Forecasting Training Device Effectiveness Using ASTAR.
- Normative and Descriptive Models for Training-System Design.- Human Performance Models and System Design.- Human Engineering Models: A User's Perspective.- Theory-Driven Design Research.- A Test of Criteria Used to Select Human Performance Models.- Wargaming: Applications of Human Performance Models to System Design and Military Training.- Appendix A: Participants.- Appendix B: Poster Presentations.