Intelligent Adaptive Systems

NOTE EDITORE

As ubiquitous as the atmosphere, intelligent adaptive systems (IASs) surround us in our daily lives. When designed well, these systems sense users and their environments so that they can provide support in a manner that is not only responsive to the evolving situation, but unnoticed by the user. A synthesis of recent research and developments on IASs from the human factors (HF) and human–computer interaction (HCI) domains, Intelligent Adaptive Systems: An Interaction-Centered Design Perspective provides integrated design guidance and recommendations for researchers and system developers. The book explores a recognized lack of integration between the HF and HCI research communities, which has led to inconsistencies between the research approaches adopted, and a lack of exploitation of research from one field by the other. The authors integrate theories and methodologies from these domains to provide design recommendations for human–machine developers. They then establish design guidance through the review of conceptual frameworks, analytical methodologies, and design processes for intelligent adaptive systems. The book draws on case studies from the military, medical, and distance learning domains to illustrate intelligent system design to examine lessons learned. Outlining an interaction-centered perspective for designing an IAS, the book details methodologies for understanding human work in complex environments and offers understanding about why and how optimizing human–machine interaction should be central to the design of IASs. The authors present an analytical and design methodology as well as an implementation strategy that helps you choose the proper design framework for your needs.

SOMMARIO

Understanding the Human–Machine SystemObjectivesDefining Human–Machine System and Intelligent Adaptive SystemSystems Design and Human–Machine InteractionCommon Causes of Poor Human–Machine InteractionThe Need for Consistent Human–Machine SystemsDesign MethodologiesSummaryReferencesTHEORETICAL APPROACHESAn Overview of Intelligent Adaptive SystemsObjectivesThe Evolution of Interface Technologies and the IAI ConceptThe Evolution of Automation Technologies and the IAA ConceptUnderstanding Intelligent Adaptive SystemsSummaryReferencesA Conceptual Architecture for Intelligent Adaptive SystemsObjectivesExisting Conceptual ArchitecturesThe Basic Anatomy of Intelligent Adaptive SystemsSummaryReferencesANALYSIS AND DESIGN OF INTELLIGENT ADAPTIVE SYSTEMSAnalytical Techniques for IAS DesignObjectivesA Review of Common Analytical TechniquesA Review of Common Design TechniquesCreating a Hybrid TechniqueSummaryReferencesAgent-Based, Interaction-Centered IAS DesignObjectivesDefining Agents in the Context of IAS DesignBenefiting from Agent-Based Approaches in IAS DesignDesigning AgentsAn Agent-Based, Interaction-Centered IAS DesignFrameworkSummaryReferencesOperator State Monitoring ApproachesObjectivesUsing Operator State Monitoring ApproachesBehavioral-Based MonitoringPsychophysiological-Based MonitoringContextual-Based MonitoringSubjective-Based MonitoringCombination-Based MonitoringAn Example Combination-Based Monitoring SystemSummaryReferencesKey Considerations for IAS DesignObjectivesConsidering Design ConstraintsDetermining Operational PrioritiesConsidering Ethical, Legal, Social, and Cultural IssuesDetermining Authority RolesDetermining Range of AdaptationDetermining Adaptation TriggersDeveloping an Adaptation TaxonomySummaryReferencesPRACTICAL APPLICATIONS Case StudiesObjectivesDesigning an Uninhabited Aerial Vehicle Operator–Machine InterfaceDesigning an Intelligent Tutoring SystemSummaryReferences

AUTORE

Dr. Ming Hou is a senior defence scientist at Defence Research and Development Canada (DRDC) Toronto, where he is responsible for providing science-based advice to the Canadian Armed Forces about the investment in and application of advanced technologies for human-machine systems requirements. His research interests include applied cognition, intelligent adaptive interface and systems design, human-technology/automation interaction, intelligent tutoring, and stereoscopic virtual and mixed reality displays. Dr. Hou is the Canadian National Leader of the Human Systems Performance Technical Panel for the Air in The Technical Cooperation Program (TTCP). He also serves several NATO working groups. Dr. Hou is a senior member of the Institute of Electrical and Electronics Engineers (IEEE), a member of the Human Factors and Ergonomics Society, and a member of the Association of Computing Machinery. Dr. Simon Banbury is the owner and president of Looking Glass HF Inc., an independent Canadian-based human factors consultancy specializing in optimizing how people interact with technology. He is also a Professeur Associé of the School of Psychology at Université Laval (Canada) where he supervises PhD students and supports teamwork and medical decision making research. Dr. Banbury has almost twenty years of human factors consultancy and applied research experience in defence, industrial, and academic domains; he has worked as a human factors consultant in the defence and industrial sectors, as a lecturer of psychology at Cardiff University, and as a defence scientist for the United Kingdom’s Defence Evaluation and Research Agency (DERA). Dr. Catherine Burns is a systems design engineering professor and the founding director of the Centre for Bioengineering and Biotechnology at the University of Waterloo (Canada). At Waterloo she also directs the Advanced Interface Design Lab. Her research examines user interface design, visualization, and cognitive work analysis and her work has been applied in military, healthcare, power plant control, and oil and gas refining domains. She regularly consults with companies in the areas of human performance in complex systems, interface design, and traditional human factors engineering. Dr. Burns has authored over 200 publications, co-authored a book on ecological interface design, and co-edited Applications of Cognitive Work Analysis. She has been the program chair for the Cognitive Engineering and Decision Making Technical Group of the Human Factors and Ergonomics Society and has been awarded both teaching and research excellence awards at the University of Waterloo.

ALTRE INFORMAZIONI

• Condizione: Nuovo
• ISBN: 9781466517240
• Dimensioni: 9.25 x 6.25 in Ø 1.30 lb
• Formato: Copertina rigida
• Illustration Notes: 85 b/w images and 30 tables
• Pagine Arabe: 331