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Engineering and Technology for...
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Engineering and Technology for Healthcare
Saved in:
Bibliographic Details
Main Author:
Imran, Muhammad Ali
Other Authors:
Ghannam, Rami
,
Abbasi, Qammer H.
Format:
eBook
Language:
English
Published:
Newark :
John Wiley & Sons, Incorporated,
2020.
Series:
Wiley - IEEE Ser.
Subjects:
Biomedical engineering.
biomedical engineering.
Biomedical engineering
Online Access:
Click for online access
Holdings
Description
Table of Contents
Similar Items
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Table of Contents:
Cover
Title Page
Copyright
Contents
List of Contributors
Introduction
Chapter 1 Maximizing the Value of Engineering and Technology Research in Healthcare: Development-Focused Health Technology Assessment
1.1 Introduction
1.2 What Is HTA?
1.3 What Is Development-Focused HTA?
1.4 Illustration of Features of Development-Focused HTA
1.4.1 Use-Focused HTA
1.4.2 Development-Focused HTA
1.5 Activities of Development-Focused HTA
1.6 Analytical Methods of Development-Focused HTA
1.6.1 Clinical Value Assessment
1.6.2 Economic Value Assessment
1.6.3 Evidence Generation
1.7 What Are the Challenges in the Development and Assessment of Medical Devices?
1.7.1 What Are Medical Devices?
1.7.2 Challenges Common to All medical Devices
1.7.2.1 Licensing and Regulation
1.7.2.2 Adoption
1.7.2.3 Evidence
1.7.3 Challenges Specific to Some Categories of Device
1.7.3.1 Learning Curve
1.7.3.2 Short Lifespan and Incremental Improvement
1.7.3.3 Workflow
1.7.3.4 Indirect Health Benefit
1.7.3.5 Behavioral and Other Contextual Factors
1.7.3.6 Budgetary Challenges
1.8 The Contribution of DF-HTA in the Development and Translation of Medical Devices
1.8.1 Case Study 1 - Identifying and Confirming Needs
1.8.2 Case Study 2 - What Difference Could This Device Make?
1.8.3 Case Study 3 - Which Research Project Has the Most Potential?
1.8.4 Case Study 4 - What Is the Required Performance to Deliver Clinical Utility?
1.8.5 Case Study 5 - What Are the Key Parameters for Evidence Generation?
1.9 Conclusion
References
Chapter 2 Contactless Radar Sensing for Health Monitoring
2.1 Introduction: Healthcare Provision and Radar Technology
2.2 Radar and Radar Data Fundamentals
2.2.1 Principles of Radar Systems
2.2.2 Principles of Radar Signal Processing for Health Applications
2.2.3 Principles of Machine Learning Applied to Radar Data
2.2.4 Complementary Approaches: Passive Radar and Channel State Information Sensing
2.3 Radar Technology in Use for Health Care
2.3.1 Activities Recognition and Fall Detection
2.3.2 Gait Monitoring
2.3.3 Vital Signs and Sleep Monitoring
2.4 Conclusion and Outstanding Challenges
2.5 Future Trends
2.5.1 Paradigm Change in Radar Sensing
2.5.2 Multimodal Sensing
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