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BLUETOOTH BASED SMART SENSOR NETWORKS

BLUETOOTH BASED SMART SENSOR NETWORKS. Presented BY:- S.KOTESWARA RAO 09511A0528. INTRODUCTION. Bluetooth is wireless high speed data transfer technology over a short range (10 - 100 meters). Bluetooth Wireless Technology (BWT) was developed in 1994 at Ericsson in Sweden.

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BLUETOOTH BASED SMART SENSOR NETWORKS

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  1. BLUETOOTH BASED SMART SENSOR NETWORKS Presented BY:- S.KOTESWARA RAO 09511A0528

  2. INTRODUCTION • Bluetooth is wireless high speed data transfer technology over a short range (10 - 100 meters). • Bluetooth Wireless Technology (BWT) was developed in 1994 at Ericsson in Sweden. • Purpose – Originally it was build to eliminate the need for cable connections between PDAs and notebook PCs.

  3. BLUETOOTH Bluetooth Specifications are: • Developed by: Jaap Haarsten and Sven Mattisson in Sweden • Standard: IEEE 802.15 • Range: 10 – 100 meters • Channel Bandwidth: 1 Mbps • Maximum Asymmetric Data Transfer Rate: 721 Kbps

  4. BLUETOOTH TOPOLOGY Depending on the type of connections established between various Bluetooth devices, 2 main topologies are as: • PICONET TOPOLOGY, and • SCATTERNET TOPOLOGY • To any topology, there are 2 prime components: • MASTER device • SLAVE device

  5. 1. PICONET TOPOLOGY • A piconet consists of up to 8 BWT-enabled devices. • When piconet is established, one device sets up frequency-hopping pattern and other devices synchronize their signals to the same pattern. • Primary Devices: Those devices which sets the frequency- hopping pattern. • Secondary Devices: Those devices which get synchronized. • Each piconet has a different frequency-hopping pattern.

  6. PICONET TOPOLOGY (contd.)

  7. PICONET TOPOLOGY (contd.) • In Bluetooth, each piconet has 1 Master for establishment of piconet, and upto 7 Slave devices. • Master’s Bluetooth address is used for defining frequency-hopping sequence. • Slave devices use master clock to synchronize their clocks so as to hop simultaneously. • For establishing piconet, other bluetooth devices in range are discovered by an inquiry procedure.

  8. 2. SCATTERNET TOPOLOGY • Scatter net consists of several piconets connected by devices participating in multiple piconet. • Here, devices can be slaves in all piconets or master in one piconet and slave in other piconets. • There is a ‘BRIDGE’ connecting 2 piconets which is also a slave in individual piconets.

  9. SMART SENSOR NETWORKS • Challenge: It is to ensure interoperability among various Bluetooth manufactures’ devices and to provide numerous applications. • One such application is : WIRELESS SENSOR NETWORKS (WSN) • Important features of WSN: Collaboration of network nodes during execution and Data Centric nature. • Many smart sensor nodes scattered in the field collect data and send it to users via ‘gateway’ using multi-hop routes.

  10. WIRELESS SENSOR NETWORKS (WSN) WSN consists of number of small devices equipped with a sensing unit, microprocessors, wireless communication interface and power source. Two main operations performed by WSN are: • QUERING – Queries are used when user requires only the current value of the observation. • TASKING – More Complex operation Used when a phenomenon has to be observed over a large period of time.

  11. Applications of Sensor networks • Military applications • Monitoring friendly forces, equipment and ammunition • Reconnaissance of opposing forces and terrain • Battlefield surveillance • Battle damage assessment

  12. Applications : • Health applications • Tele-monitoring of human physiological data • Tracking and monitoring patients and doctors inside a hospital • Drug administration in hospitals

  13. Smart sensor node implementation For implementation of Sensor as Bluetooth Node, following components are important: • Bluetooth Device • Sensors • Microcontroller Figure: SMART SENSOR NODE IMPLEMENTATION

  14. CONCLUSION • Military applications • Monitoring friendly forces, equipment and ammunition • Reconnaissance of opposing forces and terrain • Battlefield surveillance • Battle damage assessment • Nuclear, biological and chemical attack detection

  15. THANK YOU

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