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Human-Robot Interactions in Future Military Operations [Kõva köide]

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  • Formaat: Hardback, 466 pages, kõrgus x laius: 234x156 mm, kaal: 975 g
  • Sari: Human Factors in Defence
  • Ilmumisaeg: 28-Jul-2010
  • Kirjastus: Ashgate Publishing Limited
  • ISBN-10: 0754675394
  • ISBN-13: 9780754675396
Teised raamatud teemal:
Human-Robot Interactions in Future Military OperationsSuurem pilt
  • Formaat: Hardback, 466 pages, kõrgus x laius: 234x156 mm, kaal: 975 g
  • Sari: Human Factors in Defence
  • Ilmumisaeg: 28-Jul-2010
  • Kirjastus: Ashgate Publishing Limited
  • ISBN-10: 0754675394
  • ISBN-13: 9780754675396
Teised raamatud teemal:
Püsilink: https://www.kriso.ee/db/9780754675396.html
Märksõnad:
Soldier-robot teams will be an important component of future battle spaces, creating a complex but potentially more survivable and effective combat force. The complexity of the battlefield of the future presents its own problems. The variety of robotic systems and the almost infinite number of possible military missions create a dilemma for researchers who wish to predict human-robot interactions (HRI) performance in future environments. Human-Robot Interactions in Future Military Operations provides an opportunity for scientists investigating military issues related to HRI to present their results cohesively within a single volume. The issues range from operators interacting with small ground robots and aerial vehicles to supervising large, near-autonomous vehicles capable of intelligent battlefield behaviors. The ability of the human to 'team' with intelligent unmanned systems in such environments is the focus of the volume. As such, chapters are written by recognized leaders within their disciplines and they discuss their research in the context of a broad-based approach. Therefore the book allows researchers from differing disciplines to be brought up to date on both theoretical and methodological issues surrounding human-robot interaction in military environments. The overall objective of this volume is to illuminate the challenges and potential solutions for military HRI through discussion of the many approaches that have been utilized in order to converge on a better understanding of this relatively complex concept. It should be noted that many of these issues will generalize to civilian applications as robotic technology matures. An important outcome is the focus on developing general human-robot teaming principles and guidelines to help both the human factors design and training community develop a better understanding of this nascent but revolutionary technology. Much of the research within the book is based on the Human Research and Engineering Directorate (HRED), U.S. Army Research Laboratory (ARL) 5-year Army Technology Objective (ATO) research program. The program addressed HRI and teaming for both aerial and ground robotic assets in conjunction with the U.S. Army Tank and Automotive Research and Development Center (TARDEC) and the Aviation and Missile Development Center (AMRDEC) The purpose of the program was to understand HRI issues in order to develop and evaluate technologies to improve HRI battlefield performance for Future Combat Systems (FCS). The work within this volume goes beyond the research results to encapsulate the ATO's findings and discuss them in a broader context in order to understand both their military and civilian implications. For this reason, scientists conducting related research have contributed additional chapters to widen the scope of the original research boundaries.

Arvustused

'This book is remarkable because it covers a variety of topics including fundamentals of human-robot interaction and research in ground and aerial platforms as well as cross platform. It provides a deep understanding of cognitive and social perspectives of human-robot teaming as well as strengths and limits of the two components: human and machine. Reviews on adaptive automation, telepresence, and multimodal interface technologies offer solutions to many issues in human-robot interaction: improving situation awareness and human-robot ratio as well as reducing soldier workload. Experience gained and lessons learned from both simulation and field studies provide insights of interaction issues associated with uninhabited systems: teaming, coordination, communication, asset management, and system performance. This volume is a must read for all researchers and developers concerned with human-robot teaming in military domain.' Ming Hou, Defence Research & Development, Canada 'Surprisingly, the more robots can do on their own, the more important becomes the ability to coordinate those activities with other people and groups. Barnes and Jentsch have assembled a comprehensive treatment of the latest data, concepts and interfaces needed to coordinate people and robots in demanding dynamic and uncertain situations.' David Woods, Ohio State University, USA ...gives an insight into how ergonomics scientists are approaching questions in HRI, in conceptualising the problems, running experiments and exploring solutions. The book will thus be a useful addition to libraries in human factors. Australian Defence Force Journal, Issue No. 192, 2013

List of Figures
ix
List of Tables
xiii
About the Editors xv
List of Contributors
xvii
Part I Introduction to hri
1 An Introduction to Human-Robot Interaction in Military Applications
3(6)
A. William Evans, III
2 Soldier-Robot Teams in Future Battlefields: An Overview
9(22)
Michael J. Barnes
A. William Evans, III
3 The Safe Human-Robot Ratio
31(22)
Robin R. Murphy
Jennifer L. Burke
Part II Foundations of HRI
4 The Cognitive Psychology of Human-Robot Interaction
53(14)
Douglas J. Gillan
Jennifer Riley
Patricia McDermott
5 Social Factors in Human-Robot Interaction
67(16)
Lori Foster Thompson
Douglas J. Gillan
6 Robots in Space and Time: The Role of Object, Motion and Spatial Perception in the Control and Monitoring of Uninhabited Ground Vehicles
83(20)
Skye L. Pazuchanics
Roger A. Chadwick
Merrill V. Sapp
Douglas J. Gillan
7 Automation Strategies for Facilitating Human Interaction with Military Unmanned Vehicles
103(22)
Keryl Cosenzo
Raja Parasuraman
Ewart de Visser
8 An Analytical Approach for Predicting Soldier Workload and Performance Using Human Performance Modeling
125(20)
Diane Kuhl Mitchell
Charneta Samms
Part III UAV Research
9 Introducing Cognitive and Co-operative Automation into Uninhabited Aerial Vehicle Guidance Work Systems
145(26)
Axel Schulte
Claudia Meitinger
10 Situation Awareness in Human-Robot Interaction: Challenges and User Interface Requirements
171(22)
Jennifer M. Riley
Laura D. Strater
Sheryl L. Chappell
Erik S. Connors
Mica R. Endsley
11 Imperfect Reliability in Unmanned Air Vehicle Supervision and Control
193(18)
Christopher D. Wickens
Brian Levinthal
Stephen Rice
12 Remotely Operated Vehicles (ROVs) from the Bottom-Up Operational Perspective
211(18)
Tal Oron-Gilad
Yaniv Minkov
13 Unmanned Aerial Vehicles: Enhancing Video Display Utility with Synthetic Vision Technology
229(22)
Gloria Calhoun
Mark Draper
Part IV UGV Research
14 Telepresence Control of Unmanned Systems
251(20)
Chris Jansen
Jan B.F. van Erp
15 Multimodal Research for Human Robot Interactions
271(22)
Ellen C. Haas
Jan B.F. van Erp
16 Robotics Operator Performance in a Multi-Tasking Environment
293(22)
Jessie Y.C. Chen
17 A Cognitive Systems Engineering Approach for Human-Robot Interaction: Lessons from an Examination of Temporal Latency
315(20)
Laurel Allender
18 Robotic Control Systems for Dismounted Soldiers
335(20)
Elizabeth S. Redden
Linda R. Elliott
Part V Cross-platform research
19 Lessons Learned from Human-Robotic Interactions on the Ground and in the Air
355(20)
Nancy J. Cooke
Roger A. Chadwick
20 On Maximizing Fan-Out: Towards Controlling Multiple Unmanned Vehicles
375(22)
Michael A. Goodrich
21 Coordination and Automation for Controlling Robot Teams
397(22)
Michael Lewis
Jijun Wang
22 Model World: Military HRI Research Conducted Using a Scale MOUT Facility
419(16)
Florian Jenstch
A. William Evans, III
Scott Ososky
Part VI Future directions
23 The Future of HRI: Alternate Research Trajectories and their Influence on the Future of Unmanned Systems
435(8)
A. William Evans, III
Florian G. Jentsch
Index 443
Michael Barnes is a Research Psychologist with the US Army Research Laboratory (ARL). For the past five years, he was the lead for the human robotic interaction (HRI) program that included both military and university research as part of an Army Technology Objective: Robotic Collaboration. His past experience includes tenure with the US Navy and as a human factors manager with General Electric. Also, he has served on a number of international committees related to HRI. He has authored or co-authored over 60 articles on the human element of military systems. Located at Ft. Huachuca, AZ, his research interests include investigations of risk visualization, intelligence processes and unmanned aerial vehicles crew systems. Florian Jentsch, Ph.D., is an Associate Professor at the University of Central Florida, Orlando, with joint appointments in the Department of Psychology and the Institute for Simulation & Training. He is also the Director of the Team Performance Laboratory. He received his Ph.D. in Human Factors Psychology in 1997, and he holds masters degrees in aeronautical science and aeronautical engineering. Dr. Jentsch is associate editor for Human Factors and for Cognitive Technology, and consulting editor for the International Journal of Applied Aviation Studies. His research interests are in team performance and training, pilot training and performance, human-robot interaction, and simulation methodology. Dr. Jentsch has co-authored over 200 publications and presentations; this is his second edited book.