Mixed and Augmented Reality in Medicine
Herausgeber: Peters, Terry M.; Yaniv, Ziv; Linte, Cristian A.
Mixed and Augmented Reality in Medicine
Herausgeber: Peters, Terry M.; Yaniv, Ziv; Linte, Cristian A.
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Augmented reality is now being introduced to the field of medicine, where it is revolutionising healthcare as pioneering virtual elements are being added to real images to provide a more compelling and intuitive view during procedures
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Augmented reality is now being introduced to the field of medicine, where it is revolutionising healthcare as pioneering virtual elements are being added to real images to provide a more compelling and intuitive view during procedures
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Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: CRC Press
- Seitenzahl: 306
- Erscheinungstermin: 13. November 2018
- Englisch
- Abmessung: 240mm x 161mm x 21mm
- Gewicht: 625g
- ISBN-13: 9781138068636
- ISBN-10: 1138068632
- Artikelnr.: 54756329
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
- Verlag: CRC Press
- Seitenzahl: 306
- Erscheinungstermin: 13. November 2018
- Englisch
- Abmessung: 240mm x 161mm x 21mm
- Gewicht: 625g
- ISBN-13: 9781138068636
- ISBN-10: 1138068632
- Artikelnr.: 54756329
- Herstellerkennzeichnung
- Books on Demand GmbH
- In de Tarpen 42
- 22848 Norderstedt
- info@bod.de
- 040 53433511
Dr. Terry Peters is a Scientist in the Imaging Research Laboratories at the Robarts Research Institute (RRI), and Professor in the Departments of Medical Imaging and Medical Biophysics at Western University London, Canada. He is also a member of the Graduate Programs in Neurosciences and Biomedical Engineering and an adjunct Professor at McGill University in Montreal. Cristian A. Linte is a faculty member in the Department of Biomedical Engineering and Chester F. Carlson Center for Imaging Science at Rochester Institute of Technology. His research has focused on the development of intelligent solutions for computer-assisted diagnosis, therapy planning, and guidance by integrating medical image computing, surgical navigation and visualization tools, for which augmented and mixed reality environments have been a key component for effective display and interaction with multi-dimension, multi-modality imaging data. Ziv Yaniv is a senior computer scientist in the Office of High Performance Computing and Communications, at the National Library of Medicine, U.S. National Institutes of Health, USA and at TAJ Technologies Inc. His main areas of research are image-guided interventions, bio-medical image analysis, and software engineering. He believes in the curative power of open research, and for the past decade has been involved in the development of free open source software for image-guided interventions and biomedical image analysis. Jackie Williams is the Executive Director of the Biomedical Imaging Research Centre at Western University, and previously was the Manager of the CIHR Vascular Training Program at Western. An experienced scientific editor, she also has been involved in writing and managing large Imaging grants, and for the past 15 years she has served as Recording Secretary for the MICCAI Board.
1. Overview of Mixed and Augmented Reality in Medicine 2. Tracking 3.
Registration 4. Display Technologies 5. Active Sensorimotor Augmentation in
Roboticsassisted Surgical Systems 6. Visual Perception and Human-Computer
Interaction in Surgical Augmented and Virtual Reality Environments 7.
Interaction in Augmented Reality Image-Guided Surgery 8. Cognitive Oriented
Design and Assessment of Augmented Reality in Medicine 9. Augmented Reality
in Ageing and Medical Education 10. Cost Effective Simulation; A Mixed
Reality Approach 11. Augmented Reality-based Visualization for
Echocardiographic Applications 12. Ultrasound Augmented Laproscopy:
Technology and Human Factors 13. Toward Clinically Viable
Ultrasound-augmented Laproscopic Visualization 14. Augmented Reality in
Image-Guided Robotic Surgery 15. Augmented Reality for reducing
intraoperative radiation exposure to patients and clinicans during x-ray
guided procedures 16. Augmented and Virtual Visualization for Image-Guided
Cardiac Therapeutics 17. 3D Augmented Reality based Surgical Navigation and
Intervention 18. Augmenting Haptic Perception in Surgical Tools
Registration 4. Display Technologies 5. Active Sensorimotor Augmentation in
Roboticsassisted Surgical Systems 6. Visual Perception and Human-Computer
Interaction in Surgical Augmented and Virtual Reality Environments 7.
Interaction in Augmented Reality Image-Guided Surgery 8. Cognitive Oriented
Design and Assessment of Augmented Reality in Medicine 9. Augmented Reality
in Ageing and Medical Education 10. Cost Effective Simulation; A Mixed
Reality Approach 11. Augmented Reality-based Visualization for
Echocardiographic Applications 12. Ultrasound Augmented Laproscopy:
Technology and Human Factors 13. Toward Clinically Viable
Ultrasound-augmented Laproscopic Visualization 14. Augmented Reality in
Image-Guided Robotic Surgery 15. Augmented Reality for reducing
intraoperative radiation exposure to patients and clinicans during x-ray
guided procedures 16. Augmented and Virtual Visualization for Image-Guided
Cardiac Therapeutics 17. 3D Augmented Reality based Surgical Navigation and
Intervention 18. Augmenting Haptic Perception in Surgical Tools
1. Overview of Mixed and Augmented Reality in Medicine 2. Tracking 3.
Registration 4. Display Technologies 5. Active Sensorimotor Augmentation in
Roboticsassisted Surgical Systems 6. Visual Perception and Human-Computer
Interaction in Surgical Augmented and Virtual Reality Environments 7.
Interaction in Augmented Reality Image-Guided Surgery 8. Cognitive Oriented
Design and Assessment of Augmented Reality in Medicine 9. Augmented Reality
in Ageing and Medical Education 10. Cost Effective Simulation; A Mixed
Reality Approach 11. Augmented Reality-based Visualization for
Echocardiographic Applications 12. Ultrasound Augmented Laproscopy:
Technology and Human Factors 13. Toward Clinically Viable
Ultrasound-augmented Laproscopic Visualization 14. Augmented Reality in
Image-Guided Robotic Surgery 15. Augmented Reality for reducing
intraoperative radiation exposure to patients and clinicans during x-ray
guided procedures 16. Augmented and Virtual Visualization for Image-Guided
Cardiac Therapeutics 17. 3D Augmented Reality based Surgical Navigation and
Intervention 18. Augmenting Haptic Perception in Surgical Tools
Registration 4. Display Technologies 5. Active Sensorimotor Augmentation in
Roboticsassisted Surgical Systems 6. Visual Perception and Human-Computer
Interaction in Surgical Augmented and Virtual Reality Environments 7.
Interaction in Augmented Reality Image-Guided Surgery 8. Cognitive Oriented
Design and Assessment of Augmented Reality in Medicine 9. Augmented Reality
in Ageing and Medical Education 10. Cost Effective Simulation; A Mixed
Reality Approach 11. Augmented Reality-based Visualization for
Echocardiographic Applications 12. Ultrasound Augmented Laproscopy:
Technology and Human Factors 13. Toward Clinically Viable
Ultrasound-augmented Laproscopic Visualization 14. Augmented Reality in
Image-Guided Robotic Surgery 15. Augmented Reality for reducing
intraoperative radiation exposure to patients and clinicans during x-ray
guided procedures 16. Augmented and Virtual Visualization for Image-Guided
Cardiac Therapeutics 17. 3D Augmented Reality based Surgical Navigation and
Intervention 18. Augmenting Haptic Perception in Surgical Tools