Fully up-to-date coverage of human factors
engineering--plus online access to interactive demonstrations
and exercises
Engineering accomplishments can be as spectacular as a moon
landing or as mundane as an uneventful drive to the local grocery
store. Their failures can be as devastating as a plane crash or a
massive oil spill. Over the past decade, psychologists and
engineers have made great strides in understanding how humans
interact with complex engineered systems--human
engineering.
Introduction to Humans in Engineered Systems provides
historical context for the discipline and an overview of some of
the real-world settings in which human engineering has been
successfully applied, including aviation, medicine, computer
science, and ground transportation. It presents findings on the
nature and variety of human-engineering environments, human
capabilities and limitations, and how these factors influence
system performance. Important features include:
* Contents organized around the interaction of the human operator
with the larger environment to guide the analysis of real-world
situations
* A web-based archive of interactive demonstrations, exercises,
and links to additional readings and tools applicable to a range of
application domains
* Web content customizable for focus on particular areas of study
or research
Autorentext
ROGER W. REMINGTON is a professor and Vice-Chancellor's
Research Fellow in the School of Psychology at The University of
Queensland. DEBORAH A. BOEHM-DAVIS is a University Professor
in the Department of Psychology and Associate Dean in the College
of Humanities and Social Sciences at George Mason University.
CHARLES L. FOLK is a professor in the Department of
Psychology and Director of the Cognitive Science Program at
Villanova University.
Zusammenfassung
Fully up-to-date coverage of human factors engineering—plus online access to interactive demonstrations and exercises
Engineering accomplishments can be as spectacular as a moon landing or as mundane as an uneventful drive to the local grocery store. Their failures can be as devastating as a plane crash or a massive oil spill. Over the past decade, psychologists and engineers have made great strides in understanding how humans interact with complex engineered systems—human engineering.
Introduction to Humans in Engineered Systems provides historical context for the discipline and an overview of some of the real-world settings in which human engineering has been successfully applied, including aviation, medicine, computer science, and ground transportation. It presents findings on the nature and variety of human-engineering environments, human capabilities and limitations, and how these factors influence system performance. Important features include:
- Contents organized around the interaction of the human operator with the larger environment to guide the analysis of real-world situations
- A web-based archive of interactive demonstrations, exercises, and links to additional readings and tools applicable to a range of application domains
- Web content customizable for focus on particular areas of study or research
Inhalt
Preface xiii
Part I Historical Perspective 1
References 4
1 Natural and Engineered Systems 7
Purposeful Design 7
User-Centered Design 8
Design against Failure 10
Summary 12
References 12
2 Historical Roots 14
Engineering for Physical Limitations 14
Size 14
Strength 17
Speed and Efficiency 17
Engineering for Human Cognition 21
Writing 21
Number Systems 24
Point-and-Click Interfaces 25
The Modern Era 25
Aviation 26
The Digital Computer 28
A Fractured Field 30
Human Factors/Ergonomics 31
Human-Computer Interaction 33
Human-Systems Integration 33
Summary 34
References 34
3 The Current Practice 37
Aerospace 38
The Human-System Specialist in Aerospace 39
Medicine 40
The Human-System Specialist in Medicine 42
Automotive Industry 42
The Human-System Specialist in the Automotive Industry 43
Computer Industry 43
The Human-System Specialist in Human-Computer Interfaces 44
Summary 44
References 45
Part II The Environment 49
References 51
4 The Varied Nature of Environments 53
Static vs. Dynamic Domains 54
Sources of Difficulty in Static Environments 56
Modes 56
Comprehension 57
Sources of Difficulty in Dynamic Environments 58
Lag 58
Plant Dynamics 59
Control Order 63
Perturbation and Noise 66
Internal vs. External Pacing 67
Error Tolerance 68
Summary 69
References 69
5 The Social Context 71
Methodological Consequences of Group Size 74
Length/Variability of Response Times 74
Methods of Study and Analysis 75
Communication and Coordination Consequences of Group Size 76
Summary 79
References 80
6 Analysis Techniques 81
Modeling Static Environments: Finite State Representations 82
Modeling Dynamic Environments 84
Control Theory 85
Signal Detection Theory 88
Task Analysis 93
Measuring Complexity Using Information Theory 94
Modeling Throughput Using Queuing Theory 97
Summary 99
References 99
Part III The Human Element 101
References 103
7 Determinants of Human Behavior 105
The Human Factor 106
Structure and Content 107
Levels of Analysis 109
Summary 111
References 111
8 The Structure of Human Information Processing 113
Processing Stages 115
Cognition and Action 117
Cognition and Goal-Directed Behavior 119
Response Selection 119
The Hick-Hyman Law 120
Compatibility 123
The Nature of Capacity Limitations 125
Summary 126
References 126
9 Acquiring Information 127
Sensory Processing 127
Vision 127
Illumination 128
Reflectance of the Surface 128
Reflectance of Surrounding Surfaces 131
Anatomy of the Eye 131
Visual Acuity 132
Acuity and Retinal Eccentricity 135
Adaptation 138
Saccadic Eye Movements 139
Temporal Vision 141
Masking and Crowding 141
The What and Where of Vision 142
Summary 143
Color Vision 143
CIE Color Space 144
The Uses of Color 147
Audition 147
The Human Auditory Syst...