1. WIRELESS INTEGRATED NETWORK SENSORS

2. INTRODUCTION:-
Wireless Integrated Network Sensors (WINS) provide distributed network and Internet access to sensors, controls, and processors that are deeply embedded in equipment, facilities, and the environment.

3. The WINS network is a new monitoring and control capability for applications in transportation, manufacturing, health care, environmental monitoring, and safety and security.
WINS combine microsensor technology, low power signal processing, low power computation, and low power, low cost wireless networking capability in a compact system
The opportunities for WINS depend on the development of a scalable, low cost, sensor network architecture.

4. WINS support a large number of sensors in a local area with short range and low average bit rate communication(less than 1kbps)
WINS Multihop Communication networks permit large power reduction and the implementation of dense node distribution.

5. Objective
Wireless Integrated Network Sensors (WINS) provide a new monitoring and control capability for monitoring the borders of the country.
Using this concept we can easily identify a stranger or some terrorists entering the border

6. WINS nodes

7. The wireless integrated network sensor (WINS) architecture
continuously vigilant operation
low-duty cycle operation
sensor
wireless
network
interface
signal processing
for event detection
processing
event classification
and identification
control
actuator

8. The WINS node architecture is developed to enable continuous sensing, event detection, and event identification at low power.
Since the event detection process must occur continuously, the sensor, data converter, data buffer, and spectrum analyzer must all operate at micro power levels

9. Distributed network sensor devices must continuously monitor multiple sensor systems, process sensor signals, and adapt to changing environments and user requirements, while completing decisions on measured signals For the particular applications of military security, the WINS sensor systems must operate at low power, sampling at low frequency and with environmental background limited sensitivity.

10. WINS MICRO SENSORS :
Source signals like seismic, infrared, acoustic and others decay in amplitude rapidly with radial distance from the source.
The sensor-substrate “Sensorstrate” is then a platform for support of interface, signal processing, and communication circuits.

11. DIFFERENT TYPES OF SENSORS

12. Wins infrared thermal detector:

13. Thermal detector just captures the harmonic signals produced by the foot-steps of the stranger entering the border.
These signals are then converted into their PSD values and are then compared with the reference values set by the user.

14. WINS DIGTAL SIGNAL PROCESSING
If a stranger enters the border, his foot-steps will generate harmonic signals.
It can be detected as a characteristic feature in a signal power spectrum
The spectrum analyzer resolves the WINS input data into a low-resolution power spectrum.

15. WINS micro power spectrum analyzer architecture

16. Applications: Support large numbers of sensor.
Dense Sensor Distributions.
These sensors are also developed to support short
distance RF communication.
Internet access to sensors,controls and Processor.
Used in Industry,Transportation and security.