The document provides an overview of Wireless Body Area Networks (WBAN), which are designed to connect various medical sensors for monitoring human body functions. It details the architecture, components, types of sensors, and applications of WBAN in both medical and non-medical fields, emphasizing its role in healthcare monitoring and disease management. The document also outlines the data processing phases involved in the functionality of WBAN systems.

1. PRESENTED ON
WIRELESS BODY AREA
NETWORK(WBAN)
SHILPA KRISHNA
Research Scholar

2. WELCOME

3.  1. Introduction
 2. Architecture of WBAN
 3.Sensors for WBAN
 4. Why WBAN?
 5. Working of WBAN
 6. Applications of WBAN
 7.Design issues
 8.Conclusion

4. What is WBAN ??????
 A body area network (BAN), also referred to as a wireless
body area network (WBAN) or a body sensor network (BAN),is
a wireless network of wearable computing devices.
 A wireless body area network (WBAN) is a special purpose
sensor network designed to operate autonomously to connect
various medical sensors and appliances , located inside and
outside the body.
 Wireless body area network (WBAN) is a collection of low
power , miniaturized , invasive/noninvasive lightweight
wireless sensor nodes that monitor the human body functions
and the surrounding environment.

6. • WBAN components
 Sensors-biodegradable devices
 Transceivers-data transmissions and receptions
 Processor : masters the functioning of all the
components in WBAN
 Battery : supplies power
• WBAN consists of two types:
 In-body area network
 Out-body area network

11. • These sensors are the main thread in the
entire WBAN architecture.
• Roles of these sensors are specific and very
precise.
• These sensors collect values and pass them
to CCU.
• These sensors can be either implanted
inside the body or can be present over the
body as a wearable device or even as a
fabric it can be worn ,say T-shirt.

12. 1. ECG
2. TEMPERATURE
3. RESPIRATION RATE
4. BLOOD PRESSURE
5. SUGAR/GLUCOSE LEVELS
6. DENTEL SENSORS
7. EEG

13.  We can use this technology to take prearrangement measures
to control the following diseases:
 Blood pressure
 Heart attack
 Diabetes
 Glucose level
 Cancer
 Epilepsy
 Obesity
 Depression
 Sleep disorders & many others

14.  Effective healthcare monitoring
 Effective medication
 Faster detection of symptoms
 Increase in lifespan expectancy with good
health

15.  Phase 1
• Data collection by sensors
• Data acquisition by CCU
• Data storage at local storage
• Packaging and sending
 Phase 2
• Data package sent to various communities
• In case of emergency,medical help to be provided,either by
actuators or physical help.
• Data analysis by data scientist to take conclusions out of data
collected.
• Medical record/history to be maintained for further
medication.

18.  Medical applications:
• Effective health monitoring
• Fitness camps and sports
• Military
 Non-medical applications:
• Gaming/virtual reality
• Entertainment applications
• sports

19. • Security
• Confidentiality
• Ease of deployment and scalability
• Mobility
• Reliability
• Combatibility
• Power

20. WBAN serve patient and Doctor
Improve WBAN to avoided security and
interference problem
In future may Build new stander WBAN
In future improve WBAN to use with 4G (WI-
MAX)