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E-raamat: Assistive Technology for the Elderly

Edited by (Associate Professor, School of Computer Science and Information Sciences, University of Hyderabad, Telangana, India), Edited by (Professor of Mechanical/Electronics Engineering, Macquarie University, Australia)
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 11-Mar-2020
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128185476
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Assistive Technology for the ElderlySuurem pilt
  • Formaat: EPUB+DRM
  • Ilmumisaeg: 11-Mar-2020
  • Kirjastus: Academic Press Inc
  • Keel: eng
  • ISBN-13: 9780128185476
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Assistive Technology for the Elderly addresses the intricacies involved in the design and development of assisted technologies for the elderly, covering smart systems such as magnifying book contents, speaking electronic devices, alarms for doors and windows, smart alert bands, panic buttons, medication dispensers and reminders, Wander Gard, physiological parameters monitoring systems and smart home monitoring systems. This book is aimed at those who are responsible for designing assistive technology intended to be used by the elderly. It lays out the technology that is already available and covers user needs and state-of-the-art technologies and methodologies.

  • Focuses on practical devices and technology for engineers
  • Offers deep coverage of sensor based assistive technologies that are elderly for people with dementia, physical disabilities and people living alone
  • Covers assistive technology ecosystems and offers case studies for practical application
List of contributors
xi
Chapter 1 Access control for Internet of Things---enabled assistive technologies: an architecture, challenges and requirements
1(44)
Shantanu Pal
Michael Hitchens
Vijay Varadharajan
1.1 Introduction
1(3)
1.2 Background
4(10)
1.3 Design of an access control architecture: our approach
14(18)
1.4 Challenges
32(2)
1.5 Conclusion
34(1)
Glossary
35(1)
Acknowledgment
36(1)
References
36(9)
Chapter 2 An efficient ambient intelligent-assisted people searching for Internet of Things-based health-care system
45(14)
Dongfei Xue
Yongqiang Cheng
Prosanta Gope
2.1 Introduction
45(1)
2.2 Social robots
46(2)
2.3 Challenges
48(4)
2.4 Ambient intelligence
52(1)
2.5 System architecture
53(2)
2.6 Ambient intelligent--assisted people searching
55(2)
2.7 Conclusion
57(1)
References
57(2)
Chapter 3 Securing the elderly in cyberspace with fingerprints
59(22)
Guanglou Zheng
Wencheng Yang
Mike Johnstone
Rajan Shankaran
Craig Valli
3.1 Introduction
59(2)
3.2 Elderly health-care system
61(2)
3.3 Password usage for the elderly: key challenges
63(1)
3.4 Fingerprint authentication design
64(7)
3.5 Fingerprint-authentication algorithms
71(6)
3.6 Discussions
77(1)
3.7 Conclusion
78(1)
References
78(3)
Chapter 4 Wearable solution for robust fall detection
81(26)
Poi Voon Er
Kok Kiang Tan
4.1 Introduction
81(3)
4.2 Hardware development
84(3)
4.3 Algorithms for human fall detection
87(10)
4.4 Experiment and verification
97(6)
4.5 Conclusion
103(1)
References
104(3)
Chapter 5 Heart sound detection, analysis, and assistive technologies for the elderly
107(78)
Joyanta Kumar Roy
Tanmay Sinha Roy
Subhas Chandra Mukhopadhyay
5.1 Introduction
107(46)
5.2 Machine learning Apps for heart sound diagnosis
153(5)
5.3 Assistive technologies for aging patients in dealing with cardiovascular diseases: medical devices and eHealth solutions
158(1)
5.4 Portable ventilator
159(1)
5.5 Portable hemoglobin meter
160(2)
5.6 The medical data communication system
162(1)
5.7 Real-time measurement of meteorological events on public health
163(1)
5.8 Urine albumin test
164(2)
5.9 Sputum mobilization device
166(1)
5.10 Interventional cardiovascular lab
167(1)
5.11 Mobile ECG with web-based telemedicine
168(2)
5.12 A multiparameter remote diagnostic kit
170(1)
5.13 Noninvasive vascular age risk prediction
171(2)
5.14 Portable anesthesia machine
173(2)
5.15 Safety choice pill dispenser system---a simple, cost-effective solution to prevent medication mistakes
175(1)
5.16 Smart homes for elderly healthcare: prototypes and commercial solutions
176(1)
5.17 Smart monitoring systems for elderly and people with disability
177(1)
5.18 Vital signs monitoring systems
178(1)
5.19 Internet-of-Things and connected homes
179(2)
5.20 Conclusion
181(1)
References
181(3)
Further reading
184(1)
Chapter 6 Assistive sensing technology for the elderly health monitoring
185(40)
Tarikul Islam
6.1 Introduction
185(1)
6.2 Ambient assistive sensors technology
186(20)
6.3 Wearable sensors to monitor physiological parameters of elderly
206(14)
6.4 Conclusion
220(2)
Acknowledgment
222(1)
References
222(3)
Chapter 7 Assistive technology for garments: an all seasons' jacket
225(10)
Shubhajit Roy Chowdhury
Rohan Agrawal
Gaurav Meena
Akul Gupta
Manish Sharma
Vikas Kumar
Shubham Kumar
7.1 Introduction
225(1)
7.2 Review of cooling techniques used
226(1)
7.3 Implementation of heating/cooling system
227(5)
7.4 Working principle of thermoelectric cooler
232(1)
7.5 Impact on society
232(1)
7.6 Conclusion
233(1)
References
233(2)
Chapter 8 Edge computing for visitor identification using eigenfaces in an assisted living environment
235(14)
Srinivasa Raju Rudraraju
Nagender Kumar Suryadevara
Atul Negi
8.1 Introduction
235(2)
8.2 Related work
237(1)
8.3 Methodology
238(4)
8.4 Implementation details
242(4)
8.5 Conclusion and future work
246(1)
References
247(2)
Chapter 9 Toward unsupervised multiresident tracking in ambient assisted living: methods and performance metrics
249(32)
Tinghui Wang
Diane J. Cook
9.1 Introduction
249(2)
9.2 Challenges and related work
251(3)
9.3 Smart home for ambient assisted living
254(5)
9.4 Multiresident tracking in smart homes
259(11)
9.5 Performance metrics
270(4)
9.6 Experiments and discussion
274(3)
9.7 Conclusion
277(2)
Acknowledgments
279(1)
References
279(2)
Chapter 10 Significance of digital microfluidic techniques in biomedical devices for healthcare
281(24)
Yun Hui
Zhiting Peng
Md Eshrat E. Alahi
Boshi Jiang
Tianzhun Wu
10.1 Introduction
281(2)
10.2 Digital microfluidics techniques
283(3)
10.3 Digital microfluidics techniques in biomedical devices for healthcare
286(12)
10.4 Conclusion
298(1)
Acknowledgments
299(1)
References
299(6)
Chapter 11 Assistive devices for elderly mobility and rehabilitation: review and reflection
305(38)
K.M. Goher
S.O. Fadlallah
11.1 Introduction
305(3)
11.2 Mobility assistive devices
308(12)
11.3 Smart walkers
320(10)
11.4 Reflections and conclusions
330(2)
Acknowledgment
332(1)
Declaration
332(1)
Funding
333(1)
Authors' contributions
333(1)
References
333(8)
Further reading
341(2)
Index 343
Nagender Kumar Suryadevara holds a B.Tech, M.E, and Ph.D. (New Zealand). He has over 20 years of teaching and research experience.

Currently he is working as an Associate Professor of Computer and Information Sciences, University of Hyderabad, India. His fields of interest include Smart Sensors and sensing technology, instrumentation techniques, wireless sensors and network, Internet of Things, He has supervised over 20 postgraduate students and over 100 Bachelor students. He has examined over 20 postgraduate theses.

He has published over 40 papers in different international journals and conference proceedings, written one book and eight book chapters. He was a guest/co-editor for several online Journal/Book publications. He was a member for several international conferences as either General Chairs/co-chairs or Technical Programme Chair. He has delivered 22 presentations including keynote, invited, tutorial and special lectures. He is a senior member of IEEE. Subhas Mukhopadhyay holds a B.E.E. (gold medallist), M.E.E., Ph.D. (India) and Doctor of Engineering (Japan). He has over 30+ years of teaching, industrial and research experience.

Currently he is working as a Professor of Mechanical/Electronics Engineering, Macquarie University, Australia and is the Discipline Leader of the Mechatronics Engineering Degree Programme. Before joining Macquarie he worked as Professor of Sensing Technology, Massey University, New Zealand. His fields of interest include Smart Sensors and sensing technology, instrumentation techniques, wireless sensors and network, Internet of Things, numerical field calculation, electromagnetics etc. He has supervised over 40 postgraduate students and over 100 Honours students. He has examined over 50 postgraduate theses.

He has published over 450 papers in different international journals and conference proceedings, written eight books and forty book chapters and edited seventeen conference proceedings. He has also edited thirty books with Springer-Verlag and twenty four journal special issues. He has organized over 20 international conferences as either General Chairs/co-chairs or Technical Programme Chair. He has delivered 340 presentations including keynote, invited, tutorial and special lectures.

He is a Fellow of IEEE (USA), a Fellow of IET (UK), a Fellow of IETE (India), a Topical Editor of IEEE Sensors journal, and an associate editor of IEEE Transactions on Instrumentation and Measurements. He is a Distinguished Lecturer of the IEEE Sensors Council from 2017 to 2019. He is the Founding chair of IEEE IMS NSW chapter.
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