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Biomedical Visualisation = Volume 3 /
~
Rea, Paul M.
Biomedical Visualisation = Volume 3 /
Record Type:
Language materials, printed : Monograph/item
Title/Author:
Biomedical Visualisation / edited by Paul M. Rea.
Reminder of title:
Volume 3 /
other author:
Rea, Paul M.
Description:
XVI, 141 p. 87 illus., 57 illus. in color.online resource. :
Contained By:
Springer Nature eBook
Subject:
Biomedical engineering. -
Online resource:
https://doi.org/10.1007/978-3-030-19385-0
ISBN:
9783030193850
Biomedical Visualisation = Volume 3 /
Biomedical Visualisation
Volume 3 /[electronic resource] :edited by Paul M. Rea. - 1st ed. 2019. - XVI, 141 p. 87 illus., 57 illus. in color.online resource. - Advances in Experimental Medicine and Biology,11560065-2598 ;. - Advances in Experimental Medicine and Biology,889.
The Use of Ultrasound in Educational Settings: What Should We Consider When Implementing this Technique for Visualisation of Anatomical Structures? -- Interactive 3D Visualisation of the Mammalian Circadian System -- Utilising anatomical and physiological visualisations to enhance the face-to-face student learning experience in biomedical sciences and medicine -- Anatomy Visualizations Using Stereopsis: Current Methodologies in Developing Stereoscopic Virtual Models in Anatomical Education -- Statistical Shape Models - Understanding and Mastering Variation in Anatomy -- Towards Advanced Interactive Visualization for Virtual Atlases -- An Experiential Learning-Based Approach to Neurofeedback Visualisation in Serious Games -- Visual Analysis for Understanding Irritable Bowel Syndrome -- A Showcase of Medical, Therapeutic and Pastime Uses of Virtual Reality (VR) and How (VR) Is Impacting the Dementia Sector -- Immersive Technology and Medical Visualisation: A Users Guide. .
This edited book explores the use of technology to enable us to visualise the life sciences in a more meaningful and engaging way. It will enable those interested in visualisation techniques to gain a better understanding of the applications that can be used in visualisation, imaging and analysis, education, engagement and training. The reader will be able to explore the utilisation of technologies from a number of fields to enable an engaging and meaningful visual representation of the biomedical sciences, with a focus in this volume related to anatomy, and clinically applied scenarios. The first six chapters have an anatomical focus examining digital technologies and applications to enhance education. The first examines the history and development of ultrasound, applications in an educational setting, and as a point-of-care ultrasound at the bedside. The second chapter presents a transferable workflow methodology in creating an interactive educational and training package to enhance understanding of the circadian rhythm. The third chapter reviews tools and technologies, which can be used to enhance off-campus learning, and the current range of visualisation technologies like virtual, augmented and mixed reality systems. Chapter four discusses how scanning methodologies like CT imagery, can make stereoscopic models. The fifth chapter describes a novel way to reconstruct 3D anatomy from imaging datasets and how to build statistical 3D shape models, described in a clinical context and applied to diagnostic disease scoring. The sixth chapter looks at interactive visualisations of atlases in the creation of a virtual resource, for providing next generation interfaces. The seventh and eight chapters discuss neurofeedback for mental health education and interactive visual data analysis (applied to irritable bowel disease) respectively. The final two chapters examine current immersive technologies –virtual and augmented reality, with the last chapter detailing virtual reality in patients with dementia. This book is accessible to a wide range of users from faculty and students, developers and computing experts, the wider public audience. It is hoped this will aid understanding of the variety of technologies which can be used to enhance understanding of clinical conditions using modern day methodologies.
ISBN: 9783030193850
Standard No.: 10.1007/978-3-030-19385-0doiSubjects--Topical Terms:
588770
Biomedical engineering.
LC Class. No.: R856-R857
Dewey Class. No.: 610.28
Biomedical Visualisation = Volume 3 /
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The Use of Ultrasound in Educational Settings: What Should We Consider When Implementing this Technique for Visualisation of Anatomical Structures? -- Interactive 3D Visualisation of the Mammalian Circadian System -- Utilising anatomical and physiological visualisations to enhance the face-to-face student learning experience in biomedical sciences and medicine -- Anatomy Visualizations Using Stereopsis: Current Methodologies in Developing Stereoscopic Virtual Models in Anatomical Education -- Statistical Shape Models - Understanding and Mastering Variation in Anatomy -- Towards Advanced Interactive Visualization for Virtual Atlases -- An Experiential Learning-Based Approach to Neurofeedback Visualisation in Serious Games -- Visual Analysis for Understanding Irritable Bowel Syndrome -- A Showcase of Medical, Therapeutic and Pastime Uses of Virtual Reality (VR) and How (VR) Is Impacting the Dementia Sector -- Immersive Technology and Medical Visualisation: A Users Guide. .
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This edited book explores the use of technology to enable us to visualise the life sciences in a more meaningful and engaging way. It will enable those interested in visualisation techniques to gain a better understanding of the applications that can be used in visualisation, imaging and analysis, education, engagement and training. The reader will be able to explore the utilisation of technologies from a number of fields to enable an engaging and meaningful visual representation of the biomedical sciences, with a focus in this volume related to anatomy, and clinically applied scenarios. The first six chapters have an anatomical focus examining digital technologies and applications to enhance education. The first examines the history and development of ultrasound, applications in an educational setting, and as a point-of-care ultrasound at the bedside. The second chapter presents a transferable workflow methodology in creating an interactive educational and training package to enhance understanding of the circadian rhythm. The third chapter reviews tools and technologies, which can be used to enhance off-campus learning, and the current range of visualisation technologies like virtual, augmented and mixed reality systems. Chapter four discusses how scanning methodologies like CT imagery, can make stereoscopic models. The fifth chapter describes a novel way to reconstruct 3D anatomy from imaging datasets and how to build statistical 3D shape models, described in a clinical context and applied to diagnostic disease scoring. The sixth chapter looks at interactive visualisations of atlases in the creation of a virtual resource, for providing next generation interfaces. The seventh and eight chapters discuss neurofeedback for mental health education and interactive visual data analysis (applied to irritable bowel disease) respectively. The final two chapters examine current immersive technologies –virtual and augmented reality, with the last chapter detailing virtual reality in patients with dementia. This book is accessible to a wide range of users from faculty and students, developers and computing experts, the wider public audience. It is hoped this will aid understanding of the variety of technologies which can be used to enhance understanding of clinical conditions using modern day methodologies.
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