The document discusses the Internet of Things (IoT) in healthcare, covering its components, technology, market growth, and implementation strategies. It highlights the advantages such as real-time data access for patient monitoring and reduced healthcare costs, alongside concerns like cybersecurity. The IoT healthcare market is expected to grow significantly, improving chronic care management and advancing sensor technology for better diagnosis.

1. PRESENTED BY
NEHA KUMARI

2.  What is IoT?
 Why IoT in healthcare?
 Block Diagram
 Components and Technology used.
 Implementation
 IoT Healthcare Market
 Pros and Cons
 Conclusion and Future Scope

6.  Advancement in Sensor technology is
helping us to detect more and more
parameter to get real time data.
 Wifi module continuously update
data and wbsite so that we can even
access website from remote location.
 Doctor can maintain health parameter
of its patient just be visiting website
or URL.

7. BLOCK DIAGRAM
OLEDPULSE RATE
SENSOR
BODY
TEMPERATURE
SENSOR
ACCELEROMETER
WI-FI
BUTTONS
NEXT
PREVIOUS
RESET
BATTERY
ARDUINO
NANO
(MICROCONTROLLER)

8. MICROCONTROLLER
ARDUINO NANO is a (14-pin
digital and 8 analog )small, complete
breadboard friendly microcontroller
based on ATMEGA 328 or ATMEGA
368.

9. ESP8266
ESP8266 WI-FI Module is a self
contained SOC with integrated
TCP/IP protocol stack that can give
access to WIFI network .

10. SENSORS
Temperature
Sensor
Pulse Rate Sensor Accelerometer
Sensor

11. An organic light emitting
diode(OLED) is a LED in which the
emissive electroluminescent layer is a
film of organic compound that emits
light in response to an electric current.

12. ThingSpeak
 Free Online data and aggregation
platform.
Can be used for data analysis.
Can be used to act on data.

13. 000WEBHOST
 Free Webhosting Site.
 Used in creating our health
website.

14. HEALTHCARE WEBSITE

15. IoT HEALTHCARE MARKET
IoT Healthcare market is projected to grow
from USD 41.22 Billion in 2017 to USD 158.7
Billion BY 2022

17.  Highly beneficial for old person, pregnant women and disabled person.
 Better chronic care management.
 Reduction in healthcare cost.
 Real time data results in meaningful and timely health alerts.
 Issue of cybersecurity and technology taking control of health is greatest
concern.

18.  Advancement in Biosensors will result in detecting chronic and fatal
diseases at initial level..
 Availability of Real time data of each patient will improve our research
especially in case of non curable diseases.
 Compact size (Biochip) will be attached in every individual.

19.  Advancement in low cost biosensors and IoT technology is helping a great
innovation in healthcare
 In future IoT can help a great deal in curing chronic and non-curable
disease
 The device will become more and more compact to fit inside human skin
in coming future
 The issue of cyber security and Technology controlling our health will
always remain our greatest concern

20. REFERENCE
 https://spectrum.ieee.org/computing/networks/the-democratization-of-
innovation-for-the-internet-of-things
 https://www.tcs.com/engineering-services-for-internet-of-things
 https://www.bosch-si.com/iot-platform/bosch-iot-suite/homepage-bosch-iot-
suite.html
 https://www.i-scoop.eu/internet-of-things-guide/internet-things-healthcare/
 http://nevonprojects.com/iot-patient-health-monitoring-project/
 https://e27.co/advantages-disadvantages-internet-things-20160615/