3. WHY IOT?
The Internet of Things (IoT) ecosystem has a very
complex architecture, in which multiple components
interact with each other to enable various solutions
for the end user.
This is an interdependent system, which enables
real-time data acquisition, device connectivity, data
transfers, and analytics to control end user
applications.
IoT provides the connected environment,
comprising the cyber physical systems, which
integrates human intervention with computer-based
systems and facilitates data-driven decision
processes.
4. INTRODUCTION
IoMT enables M2M interaction.
Real time intervention solutions which will
radically transform the healthcare delivery,
affordability and reliability in near future.
This Technology adoption rate will increase
in coming years to grow this market to reach
$156 Billion by 2020.
6. COMMUNICATION CHANNEL
HOME CARE UNIT
Image Digitlser
Measurement Device
User Display
Modem
COMMUNICATION
NETWORK
Data Analyzer
Storage Device
HEALTH CARE TERMIINAL
Physician Display
Modem
Physician Camera
7. IOMT APPLICATIONS
Chronic Disease Management
Remote Assisted Living
Wellness and Preventive Care
Remote Intervention
Improved Drug Management
9. MARKET LANDSCAPE
The IoMT market is forecast to expand at a CAGR of 37
% to USD 156 billion by 2020
Network Technologies connect patient devices to remote
locations and manage data transmission
10. FUTURE PROSPECTS AND CONCLUSIONS
While IoT-based medical technology applications are
still in a nascent stage of development, the
implementation of connected devices could significantly
improve healthcare delivery.
Considering the benefits and associated challenges,
IoMT seems a promising solution to improve healthcare
monitoring and treatment outcomes
Recent research and developments in sensors,
networks, cloud storage & computing, as well as
mobility, and big data analytics have evolved enough to
enable the creation of affordable smart medical devices
and a connected healthcare ecosystem.
12. DISADVANTAGES
Difficult for hospitals to manage IoT devices.
Using IoT devices requires Cyber Security
Costly Equipments
13. REFERENCES
Buckley, J. (2006). From RFID to the Internet of Things :
Pervasive networked systems. In Report on the Conference
organized by DG Information Society and Media Networks
and Communication Technologies Directorate , Brussels,
March 6-7.
Complete RFID Analysis and Forecasts, 2008
2018,www.idtechex.com/researchreports/.
WANG Hong,Key technology of telemedicine based on 3G
network,//Chinese Hospitals.-2010,14(7):47-50
T. Kriplean et al., "Physical Access Control for Captured RFID
Data,“ IEEE Pervasive Computing, vol. 6, no. 4, 2007, pp. 48-
55.
Michael Chui, Markus Löffler, and Roger Roberts, The Internet
of Things; http://tc.indymedia.org/files/bigbrother/internet-spy-
all.pdf