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Effective use of driving simulators requires considerable technical and methodological skill along with considerable background knowledge. Acquiring the requisite knowledge and skills can be extraordinarily time consuming, yet there has been no single convenient and comprehensive source of information on the driving simulation research being conduc
As cognitive models of behavior continue to evolve, the mechanics of cognitive exceptionality, with its range of individual variations in abilities and performance, remains a challenge to psychology. Reaching beyond the standard view of exceptional cognition equaling superior intelligence, the Handbook of Individual Differences in Cognition examines the latest findings from psychobiology, cognitive psychology, and neuroscience, for a comprehensive state-of-the-art volume. Breaking down cognition in terms of attentional mechanisms, working memory, and higher-order processing, contributors discuss general models of cognition and personality. Chapter authors build on this foundation as they revisit current theory in such areas as processing effort and general arousal and examine emerging methods in individual differences research, including new data on the role of brain plasticity in cognitive function. The possibility of a unified theory of individual differences in cognitive ability and the extent to which these variables may account for real-world competencies are emphasized, and commentary chapters offer suggestions for further research priorities. Coverage highlights include: The relationship between cognition and temperamental traits. The development of autobiographical memory. Anxiety and attentional control. The neurophysiology of gender differences in cognitive ability. Intelligence and cognitive control. Individual differences in dual task coordination. The effects of subclinical depression on attention, memory, and reasoning. Mood as a shaper of information. Researchers, clinicians, and graduate students in psychology and cognitive sciences, including clinical psychology and neuropsychology, personality and social psychology, neuroscience, and education, will find the Handbook of Individual Differences in Cognition an expert guide to the field as it currently stands and to its agenda for the future.
In this updated and expanded edition of The Cambridge Handbook of Expertise and Expert Performance, some of the world's foremost experts on expertise share their scientific knowledge of expertise and expert performance and show how experts may differ from non-experts in terms of development, training, reasoning, knowledge, and social support. The book reviews innovative methods for measuring experts' knowledge and performance in relevant tasks. Sixteen major domains of expertise are covered, including sports, music, medicine, business, writing, and drawing, with leading researchers summarizing their knowledge about the structure and acquisition of expert skills and knowledge, and discussing future prospects. General issues that cut across most domains are reviewed in chapters on various aspects of expertise, such as general and practical intelligence, differences in brain activity, self-regulated learning, deliberate practice, aging, knowledge management, and creativity.
Simulation continues to be a growth area in transportation human factors. From empirical studies in the laboratory to the latest training techniques in the field, simulators offer myriad benefits for the experimenter and the practitioner. This book draws together current trends in research and training simulators for the road, rail, air and sea sectors to inform the reader how to maximize both validity and cost-effectiveness in each case. Simulators for Transportation Human Factors provides a valuable resource for both researchers and practitioners in transportation human factors on the use of simulators, giving readers concrete examples and case studies of how simulators have been developed and used in empirical research as well as training applications. It offers useful and usable information on the functional requirements of simulators without the need for any background knowledge on the technical aspects, focusing on the state of the art of research and applications in transport simulators rather than the state of the art of simulation technology. The book covers simulators in operational terms instead of task simulation/modelling and provides a useful balance between a bottom-up, academic approach and a top-down, practical perspective.
The authors of this review manual have captured all of the elements of simulation from establishing the objectives of simulated learning experiences, to constructing scenarios, to debriefing students and the simulation team, to assessing and evaluating the learning that has accrued. They have also described the range of simulation options and the contexts for their most effective use. ;Gloria F. Donnelly, PhD, RN, FAAN, FCPP, Dean and Professor College of Nursing and Health Professions, Drexel University Health professionals embarking on a career teaching simulation are embracing a world of innovation in which both teacher and student can develop their healthcare skills more rapidly and promote better patient outcomes. This is the first practice manual to assist healthcare simulation educators in the United States and internationally in preparing for certification in this rapidly emerging field. The authors, noted experts in simulation and education, have carefully analyzed the CHSE blueprint to ascertain what material is most likely to be covered. They present this information in a user-friendly, pithy outline format. This review manual provides numerous features that help students to critically analyze test content, including end-of-chapter review questions, test-taking strategies, and a comprehensive practice test with answers and rationales. It features current evidence-based teaching practices and incorporates case studies to connect simulation situations to simulation education with healthcare students and includes information about advanced certification and recertification. KEY FEATURES: Comprises the first review book for the CHSE exam Follows the CHSE test blueprint Fosters optimal learning and retention through use of a pithy outline format Provides Teaching Tips feature for best simulation practice Includes Evidence-Based Simulation Practice boxes that focus on current research Incorporates case studies, 230+ test questions, end-of-chapter practice questions, and test-taking strategies The Certified Healthcare Simulation Educator and CHSE marks are trademarks of the Society for Simulation in Healthcare. This manual is an independent publication and is not endorsed, sponsored, or otherwise approved by the Society.
Praise for the First Edition: “The authors of this review manual have captured all of the elements of simulation from establishing the objectives of simulated learning experiences, to constructing scenarios, to debriefing students and the simulation team, to assessing and evaluating the learning that has accrued. They have also described the range of simulation options and the contexts for their most effective use.” --Gloria F. Donnelly, PhD, RN, FAAN, FCPP, Dean and Professor College of Nursing and Health Professions, Drexel University This is the first practice manual to help healthcare simulation educators in the United States and internationally to prepare for the certification exam in this burgeoning field. The second edition is revised to reflect the latest test blueprint and encompass key evidence-based research that has been conducted since the first edition was published. Authored by noted experts in simulation and education who have carefully analyzed the test blueprint, the book distills the information most likely to be included on the exam. Information is presented in a concise, easy-to-read outline format. Numerous features help students to critically analyze test content, including end-of-chapter review questions, proven test-taking strategies, savvy simulation teaching tips, evidence-based practice boxes, and a comprehensive practice test with answers and rationales. Current evidence-based case studies help to connect simulation situations to simulation education. The manual also includes information about advanced certification and recertification. NEW TO THE SECOND EDITION Updated to align with the new test blueprint Encompasses an abundance of new evidence-based research KEY FEATURES Fosters optimal learning and retention with a concise, easy-to-read bulleted format Assists simulation educators in all healthcare disciplines Includes Evidence-Based Simulation Practice boxes focusing on current research Provides savvy teaching tips and proven test-taking strategies Fosters critical thinking with case studies, end-of-chapter review questions, and comprehensive practice test with answers and rationales The Certified Healthcare Simulation EducatorTM and CHSETM marks are trademarks of the Society for Simulation in Healthcare. This manual is an independent publication and is not endorsed, sponsored, or otherwise approved by the Society.
Human Factors and Ergonomics have made a considerable contribution to the research, design, development, operation and analysis of transportation systems which includes road and rail vehicles and their complementary infrastructure, aviation and maritime transportation. This book presents recent advances in the Human Factors aspects of Transportation. These advances include accident analysis, automation of vehicles, comfort, distraction of drivers (understanding of distraction and how to avoid it), environmental concerns, in-vehicle systems design, intelligent transport systems, methodological developments, new systems and technology, observational and case studies, safety, situation awareness, skill development and training, warnings and workload. This book brings together the most recent human factors work in the transportation domain, including empirical research, human performance and other types of modeling, analysis, and development. The issues facing engineers, scientists, and other practitioners of human factors in transportation research are becoming more challenging and more critical. The common theme across these sections is that they deal with the intersection of the human and the system. Moreover, many of the chapter topics cross section boundaries, for instance by focusing on function allocation in NextGen or on the safety benefits of a tower controller tool. This is in keeping with the systemic nature of the problems facing human factors experts in rail and road, aviation and maritime research– it is becoming increasingly important to view problems not as isolated issues that can be extracted from the system environment, but as embedded issues that can only be understood as a part of an overall system.
This volume explores cognitive ergonomics, which is concerned with mental processes—otherwise known as brain work. It discusses perception, memory, reasoning, and motor response, as they affect interactions among humans and other elements of a system. Topics will include mental workload, decision-making, skilled performance, human-computer interaction, human reliability, work stress and training as these relate to human-system design. This book brings together a wide-ranging set of contributed articles that address emerging practices and future trends in cognitive engineering and neuroergonomics– both aim to harmoniously integrate human operator and computational system, the former through a tighter cognitive fit and the latter a more effective neural fit with the system. The chapters in this book uncover novel discoveries and communicate new understanding and the most recent advances in the areas of workload and stress, activity theory, human error and risk, and neuroergonomic measures, as well as associated applications.
Safety has been ranked as the number one concern for the acceptance and adoption of automated vehicles since safety has driven some of the most complex requirements in the development of self-driving vehicles. Recent fatal accidents involving self-driving vehicles have uncovered issues in the way some automated vehicle companies approach the design, testing, verification, and validation of their products. Traditionally, automotive safety follows functional safety concepts as detailed in the standard ISO 26262. However, automated driving safety goes beyond this standard and includes other safety concepts such as safety of the intended functionality (SOTIF) and multi-agent safety. Multi-Agent Safety addresses the concept of safety for self-driving vehicles through the inclusion of 10 recent and highly relevent SAE technical papers. Topics that these papers feature include vehicle interaction with other vehicles, pedestrians, bicyclists, and other road objects. As the second title in a series on automated vehicle safety, each will contain introductory content by the Editor with 10 SAE technical papers specifically chosen to illuminate the specific safety topic of that book.
In this follow-up to his earlier SAE book By the Numbers: Principles of Automotive Parts Management, Naples focuses on managing the three most important assets of an automobile parts business: financial, customer, and personnel. The book also includes information critical for creating and managing a total quality organization. Beyond the Numbers offers reference material applicable to the parts supply industry and beyond, and provides a framework that parts managers and parts store owners can use to improve overall organizational performance. Naples provides specific and practical guidelines for quality management which will lead to loyal employees, loyal customers, and a better bottom line.