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Ergonomics and Human Factors [electronic resource] : Recent Research / edited by Leonard S. Mark, Joel S. Warm, Ronald L. Huston.

Medverkande: Materialtyp: TextSerie: Recent Research in PsychologyUtgivningsuppgift: New York, NY : Springer New York : Imprint: Springer, 1987Utgåva: 1st ed. 1987Beskrivning: VIII, 291 p. online resourceInnehållstyp:
  • text
Medietyp:
  • computer
Bärartyp:
  • online resource
ISBN:
  • 9781461247562
Ämnen: Fler format: Printed edition:: Ingen titel; Printed edition:: Ingen titelDDK-klassifikation:
  • 150 23
Library of Congress (LC) klassifikationskod:
  • BF1-990
Onlineresurser:
Innehåll:
Editors’ Introduction: An Overview of Ergonomics and Human Factors -- I. Human Information Processing -- 1. Overview Paper: Vigilance: Taxonomy and Utility -- 2. Event Asychrony and Task Demands in Sustained Attention -- 3. Overview Paper: Perception and Control of Self-Motion: Implications for Visual Simulation of Vehicular Locomotion -- 4. Overview Paper: An Overview of Cognitive Psychology -- 5. Error Factors in Recognition Memory -- 6. Visual Motion Processing and Display Design -- 7. Overview Paper: Skill Learning and Human Factors -- 8. The Speed and Accuracy of Movements as a Function of Constraints to Action -- 9. Topological Characteristics in the Acquisition of Coordination -- 10. Augmented Information Feedback and Task Constraints -- 11. Whole-Task and Part-Task Training in Dual Motor Tasks -- 12. Overview Paper: Consistent Mapping, Invariants and the Training of Perceptual-Motor Skills -- II. Fitting the Environment to the Person -- 13. Overview Paper: Falls in the Elderly: The Need for New Research -- 14. A Questionnaire Survey to Assess Rating of Physical Workplace Conditions, Somatic Discomfort and Work Efficiency Among VDT Users -- 15. Overview Paper: Health, Stress, and Workload In an Era of Workplace Change -- 16. Arousal Theory, Stress, and Performance: Problems of Incorporating Energetic Aspects of Behavior into Human-Machine Systems Function -- 17. Overview Paper: An Overview of Safety Engineering in Human Factors -- 18. Cognitive Aspects of Hazard Warning Labels -- 19. Application of Poisson Regression to the Injury Experience of Shiftworkers -- 20. An Examination of the Recovery Value of Various Restbreak Durations for an Analytical Task -- 21. Prediction of Blood Alcohol Concentration in Humans: Comments and Criticisms -- III. Human-Computer Interaction -- 22. OverviewPaper: Human-Computer Interaction: A Brief Glimpse of an Emerging Field -- 23. Individual Differences in Computer-Based Information Retrieval -- 24. I’ll Break Something and You Tell Me What Went Wrong: Methods for Evaluating the User Interface in Network Problem Determination Software -- 25. Objections to Objects: Limitations of Human Performance in the Use of Iconic Graphics -- 26. Overview Paper: Office Systems Documentation -- 27. Methods and Procedures in an On-Line System: A Proposed Solution -- 28. A Critical Incident Evaluation Tool for Software Documentation -- 29. Page Format and User Understanding of Command Language Computer Manuals -- 30. Overview Paper: Artificial Intelligence: An Introduction and Applications to the Human-Computer Interface -- 31. Natural Languages and Their Commercial Applications -- IV: An Assessment of the Human Factors Enterprise -- 32. Plenary Address: The Human Factors Technologies: Past Promises, Future Issues.
I: Springer Nature eBookSammanfattning: And Applications To The Human-Computer Interface Michael E. Fotta AT&T Communications 16th FIr. Atrium II, Cincinnati, OH 45202 Artificial intelligence (AI) programs represent knowledge in a fashion similar to human knowledge and the activities of an AI system are closer to human behavior than that of traditional systems. Thus, AI enables the computer to act more like a human instead of making the human think and act more like a computer. This capability combined with applying human factors concepts to the interface can greatly improve the human-computer interface. This paper provides an intro­ duction to artificial intelligence and then proposes a number of methods for using AI to improve the human-machine inter­ action. AN INTRODUCTION TO ARTIFICIAL INTELLIGENCE Definition There are many definitions of artificial intelligence (AI) running from the very general to the very detailed. Perhaps the most well accepted general definition is that by Elaine Rich: "Artificial intelligence is the study of how to make computers do things at which, at the moment, people are better", (Rich, 1983). A good example of a detailed definition is provided by the Brattle Research Corporation; "In simplified terms, artificial intelligence works with pattern matching methods which attempt to describe objects, events or pro­ cesses in terms of their qualitative features and logical and compu­ tational relationships," (Mishkoff, 1985).
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Editors’ Introduction: An Overview of Ergonomics and Human Factors -- I. Human Information Processing -- 1. Overview Paper: Vigilance: Taxonomy and Utility -- 2. Event Asychrony and Task Demands in Sustained Attention -- 3. Overview Paper: Perception and Control of Self-Motion: Implications for Visual Simulation of Vehicular Locomotion -- 4. Overview Paper: An Overview of Cognitive Psychology -- 5. Error Factors in Recognition Memory -- 6. Visual Motion Processing and Display Design -- 7. Overview Paper: Skill Learning and Human Factors -- 8. The Speed and Accuracy of Movements as a Function of Constraints to Action -- 9. Topological Characteristics in the Acquisition of Coordination -- 10. Augmented Information Feedback and Task Constraints -- 11. Whole-Task and Part-Task Training in Dual Motor Tasks -- 12. Overview Paper: Consistent Mapping, Invariants and the Training of Perceptual-Motor Skills -- II. Fitting the Environment to the Person -- 13. Overview Paper: Falls in the Elderly: The Need for New Research -- 14. A Questionnaire Survey to Assess Rating of Physical Workplace Conditions, Somatic Discomfort and Work Efficiency Among VDT Users -- 15. Overview Paper: Health, Stress, and Workload In an Era of Workplace Change -- 16. Arousal Theory, Stress, and Performance: Problems of Incorporating Energetic Aspects of Behavior into Human-Machine Systems Function -- 17. Overview Paper: An Overview of Safety Engineering in Human Factors -- 18. Cognitive Aspects of Hazard Warning Labels -- 19. Application of Poisson Regression to the Injury Experience of Shiftworkers -- 20. An Examination of the Recovery Value of Various Restbreak Durations for an Analytical Task -- 21. Prediction of Blood Alcohol Concentration in Humans: Comments and Criticisms -- III. Human-Computer Interaction -- 22. OverviewPaper: Human-Computer Interaction: A Brief Glimpse of an Emerging Field -- 23. Individual Differences in Computer-Based Information Retrieval -- 24. I’ll Break Something and You Tell Me What Went Wrong: Methods for Evaluating the User Interface in Network Problem Determination Software -- 25. Objections to Objects: Limitations of Human Performance in the Use of Iconic Graphics -- 26. Overview Paper: Office Systems Documentation -- 27. Methods and Procedures in an On-Line System: A Proposed Solution -- 28. A Critical Incident Evaluation Tool for Software Documentation -- 29. Page Format and User Understanding of Command Language Computer Manuals -- 30. Overview Paper: Artificial Intelligence: An Introduction and Applications to the Human-Computer Interface -- 31. Natural Languages and Their Commercial Applications -- IV: An Assessment of the Human Factors Enterprise -- 32. Plenary Address: The Human Factors Technologies: Past Promises, Future Issues.

And Applications To The Human-Computer Interface Michael E. Fotta AT&T Communications 16th FIr. Atrium II, Cincinnati, OH 45202 Artificial intelligence (AI) programs represent knowledge in a fashion similar to human knowledge and the activities of an AI system are closer to human behavior than that of traditional systems. Thus, AI enables the computer to act more like a human instead of making the human think and act more like a computer. This capability combined with applying human factors concepts to the interface can greatly improve the human-computer interface. This paper provides an intro­ duction to artificial intelligence and then proposes a number of methods for using AI to improve the human-machine inter­ action. AN INTRODUCTION TO ARTIFICIAL INTELLIGENCE Definition There are many definitions of artificial intelligence (AI) running from the very general to the very detailed. Perhaps the most well accepted general definition is that by Elaine Rich: "Artificial intelligence is the study of how to make computers do things at which, at the moment, people are better", (Rich, 1983). A good example of a detailed definition is provided by the Brattle Research Corporation; "In simplified terms, artificial intelligence works with pattern matching methods which attempt to describe objects, events or pro­ cesses in terms of their qualitative features and logical and compu­ tational relationships," (Mishkoff, 1985).

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