Wearable Smart Sensing Devices for Sustainable Healthcare
Techniques, Fabrication, Data Collection and Analysis
- 1st Edition - July 1, 2026
- Latest edition
- Editors: Arpana Parihar, Mayank Garg, Dimitrios Lamprou
- Language: English
The use of wearable sensors in healthcare has enormous promise for raising healthier lifestyles, cutting healthcare expenses, and enhancing patient care. Wearable Smart Sensing De… Read more
The use of wearable sensors in healthcare has enormous promise for raising healthier lifestyles, cutting healthcare expenses, and enhancing patient care. Wearable Smart Sensing Devices: Techniques, Fabrication, Data Collection and Analysis presents a complete overview of the techniques for developing integrated wearable sensors, the systems that power them, and the fabrication issues involved in making them. The book bridges the gap between theory and practice, offering scientific knowledge and practical insight. Written by renowned researchers and industry experts, this book provides valuable understanding and insight into the design, data processing and analysis, and fabrication of wearable sensors for academic engineering and scientific researchers, industry engineers and scientists interested in developing wearable sensor devices.
- Presents a practical approach to designing and fabricating wearable sensors, covering lightweight hardware, energy harvesting, signal processing, and wireless communication.
- Explores practical challenges related to smart fabrics, biomonitoring, and health informatics, addressing real-world problems faced by professionals in these areas.
- Gives a deep understanding of designing wearable devices from an end user perspective
- Discusses ethical and safety considerations
- Presents the future trends for wearable sensors in the field of disease diagnostics and personalized healthcare management
Biomedical engineers material scientists, translational medical device developers, personalized healthcare specialists, biotechnologists, chemists, nanotechnology experts and engineering, working in microfluidics and point-of-care device development
Section I: Overview
1. Fundamentals of wearable sensors
2. Vital sign sensing using wearable sensors
3. Biomarkers monitoring using wearable sensors
4. Sample management systems in wearable sensors
Section II: Fabrication of Wearable Sensor
5. Self-powering wearable sensors
6. 3D printed Wearable Sensors
7. Electronics associated with wearable sensors
Section III: Data Collection and Analysis
8. Wearable sensors for personalized Healthcare
9. Data collection and transmission
10. Data processing and health analytics
11. Human Data protection
Section IV: Challenges and Commercial Aspects
12. Commercialization of wearables sensors: Challenges and future scope
13. Role of AI and IoT in wearable sensing atmosphere
14. Wearable sensing platforms: Challenges and Perspectives
1. Fundamentals of wearable sensors
2. Vital sign sensing using wearable sensors
3. Biomarkers monitoring using wearable sensors
4. Sample management systems in wearable sensors
Section II: Fabrication of Wearable Sensor
5. Self-powering wearable sensors
6. 3D printed Wearable Sensors
7. Electronics associated with wearable sensors
Section III: Data Collection and Analysis
8. Wearable sensors for personalized Healthcare
9. Data collection and transmission
10. Data processing and health analytics
11. Human Data protection
Section IV: Challenges and Commercial Aspects
12. Commercialization of wearables sensors: Challenges and future scope
13. Role of AI and IoT in wearable sensing atmosphere
14. Wearable sensing platforms: Challenges and Perspectives
- Edition: 1
- Latest edition
- Published: July 1, 2026
- Language: English
AP
Arpana Parihar
Arpana Parihar is a DST Scientist B at CSIR-Advanced Materials and Processes Research Institute (AMPRI), Bhopal, India. She has 8 years of research and teaching experience and her current research interests include fabrication (Micro/Nano-fabrication) of Bio-devices/bio-medical POCT Devices for early diagnosis of cancer and infectious disease. She has gained significant expertise in the field of 3D cell culture, drug designing, tissue engineering, photodynamic therapy, molecular dynamic simulations, and immunoinformatics.
Affiliations and expertise
Industrial Waste Utilization, Nano and Biomaterials, CSIR-Advanced, Materials and Processes, Research Institute (AMPRI), Bhopal, Madhya, Pradesh, IndiaMG
Mayank Garg
Dr. Mayank Garg is currently working as a Postdoctoral Researcher at Texas A&M University, USA on the development of wearable sensors. The major objective of the research work is the development of sensing platform for the detection of biomolecules in sweat. Prior to this work, the researcher was working as an Early Career Fellow at the Indian Institute of Technology Gandhinagar, India on the development of wearable biosensors for eyes. The major objective of this research work was the development of nanomaterial-modified hydrogels as biosensing platforms for biomolecules in the tears. Prior to this work, he completed his Ph.D. in 2021 from the Academy of Scientific and Innovative Research, India which is an Institute of National Importance in India. He has more than seven years of research and teaching experience at various Indian and International Organizations and Institutions.
Affiliations and expertise
Postdoctoral Researcher, Texas A&M University, USADL
Dimitrios Lamprou
Professor Dimitrios Lamprou is Full Professor (Chair) of Biofabrication and Advanced Manufacturing and Director at MSc Industrial Pharmaceutics at Queen’s University Belfast School of Pharmacy (ranked on the top 40 in the world). He is also the Chair at United Kingdom and Ireland Controlled Release Society (UKICRS) and Committee Member of the British Standards Institute (BSI) AMT/8 for Additive Manufacturing. Dimitrios, is the author of over 170 peer-reviewed publications, has edited 9 books, has over 450 conference abstracts, has given over 180 Invited Talks in institutions and conferences across the world, and has secure Funding in excess of £5M. Has been recognised as world leader in Printing with PubMed-based algorithms placed him in the top 0.1% of scholars in the world writing about Printing, over the last 10 years. Dimitrios has been named in the Stanford University's list of World's Top 2% Scientists, for several consecutive years, for his research in Pharmaceutics and Biomedical Engineering.
Affiliations and expertise
Queen's University of Belfast, UK