CD3006 Wearable Devices and Applications Syllabus:

CD3006 Wearable Devices and Applications Syllabus – Anna University Regulation 2021

COURSE OBJECTIVES:

 To understand the basics of Wearable Computing
 To understand Wearable Devices and Technologies
 To know about basics of Security Challenges
 To understand the concepts of Applications of wearables in Health Care
 To know about Advanced applications of Wearable Computing

UNIT I WEARABLE COMPUTING

Introduction to Wearable Computers – Design Considerations – Wearable Interactions – Design Guidelines and Evaluation – Future Trends in Wearable Computing

UNIT II WEARABLE DEVICES AND TECHNOLOGIES

Health and Fitness Wearables – The Promise and Perils of Wearable Technologies – Confidential Data Storage system for wearable platforms – Management and Security issues in Wearable platforms.

UNIT III SECURITY CHALLENGES

Authenticity Challenges of Wearable Technologies – Wearable Computing: Security Challenges, BYOD, Privacy, and Legal Aspects – Security, Privacy, and Ownership Issues With the Use of Wearable Health Technologies – Wearable Devices: Ethical Challenges and Solutions

UNIT IV HEALTH CARE APPLICATION

IoT for Ambient Assisted Living: Care4Me – A Healthcare Support System – Study of Real-Time Cardiac Monitoring System: A Comprehensive Survey – Co-Designing Wearable Technology Together with Visually Impaired Children

UNIT V ADVANCED APPLICATIONS

Securing the Human Cloud: Applying Biometrics to Wearable Technology – Context-Aware Mobile and Wearable Device Interfaces – An Overview of Telemedicine Technologies for Healthcare Applications – Internet of Things in E-Health: An Application of Wearables in Prevention and WellBeing – Wearable ECG Monitoring and Alerting System Associated With Smartphone: iHeart

30 PERIODS

LIST OF EXPERIMENTS 30 PERIODS

1. Study exercise on the basics of sensors used for wearable devices.
2. Design a heartbeat monitoring system using Heart rate sensor.
3. Design a human activity monitoring system using strain gauge sensors
4. Design a system to track the sleep patterns of a human using Accelerometers
5. Optimize the system to track the sleep patterns of a human using Gyroscopes.
6. Design a system to track the human’s (User’s) steps while walking or running using Pedometer Sensor.
7. Design a SpO2 monitor to measure blood oxygen levels using Pulse Oximeter Heart Rate Sensor.
8. Design a system to detect the wrist motion using gesture sensor.
9. Design a temperature monitoring system to monitor the continuous temperature of a human using Skin Temperature probes.
10. Build an application that integrates all the necessary systems to monitor/observe a human.

TOTAL : 60 PERIODS

COURSE OUTCOMES:

CO1: Understand the basics of Wearable Computing
CO2: Through knowledge on various devices and technologies of Wearable computing
CO3: Trace the challenges of Security issues in Wearable computing
CO4: Explore knowledge of Wearable computing in health sector
CO5: Discover the advanced trends in wearable computing

TEXT BOOKS

1. Vivian Genaro Motti, Wearable Interaction, Springer Nature, 2020.
2. Marc L. Resnick (Bentley University, USA) and Alina M. Chircu, Wearable Devices: Ethical Challenges and Solutions, IGI Global Publisher 2018.

REFERENCES

1. Edward Sazonov and Michael R. Neuman (Editors), Wearable Sensors Fundamentals, Implementation and Applications, Elsevier, 2015.
2. Wearable Applications Research, devices and Interactions, Internet of Medical Things Paradigm of Wearable Devices, 1st Edition, 2021 by CRC Press.
3. Wearable Technologies: Concepts, Methodologies, Tools, and Applications (Critical Explorations) 1st Edition,2018
4. Information Resources Management Association (Author, Editor), Wearable Technologies: Concepts, Methodologies, Tools, and Applications (Critical Explorations) 1st Edition, 2018.