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IoT Research Lab Kit - GOLD
The Research kit contains the following modules
with the combination given below:
© Ubimote : 10 Nos
© BLE Mote : 10 Nos
© WINGZ : 1 No
© UbiSense : 10 Nos
© Debugger : 2 Nos
Ô
Ô
IoT Research Lab Kit - PLATINUM
The Research kit contains the following modules
with the combination given below:
© Ubimote : 15 Nos
© BLE Mote : 15 Nos
© Wi-Fi Mote : 15 Nos
© WINGZ : 1 No
© UbiSense : 15 Nos
© Debugger : 2 Nos
Ô
Ô
IoT systems developed by C-DAC support lot of features which enables the researchers and students to
explore different aspects and develop different applications in IoT field. The most popular protocols used
for realization of IoT are Zigbee and 6LoWPAN (IEEE 802.15.4), Bluetooth and Wi-Fi. Sensors are the
building blocks of IoT which can collect parameters and low power wireless embedded systems transmit
information to gateway devices. Gateway device will make the parameters available over internet so that
parameters are globally accessible. As IoT is a heterogeneous network of networks, CDAC's IoT Lab Kits
comprising of UbimoteÔs, BLE motes, Wi-Fi motes along with UbiSense and WINGZÔ form a perfect
platform for to study and explore these technologies with the help of possible list of experiments provided.
IoT Lab KitsIoT Lab KitsWINGZÔ
UbimoteÔ
Wi-Fi mote
BLE mote
UbiSense
IoT LABKIT
COMPONENTS
Possible list of experiments for above research kits and IOT lab table
1. Embedded Programming
2. RF experiments
3. Experiments on interfacing with UbiSense
4. WSN Applications
5. IoT applications
Business Queries
Technical Queries
1.1 Toggling LEDs
1.2 Transmitting a string through UART
1.3 Controlling LEDs blinking pattern through UART
1.4 Echo each character typed on serial terminal.
1.5 Digital IO configuration.
1.6 Timer based LED Toggle.
1.7 On-chip Temperature measurement through ADC.
2.1 Point-to-Point communication of two Motes over the radio frequency.
2.2 Multi-point to single point communication of Motes over the radio frequency.
3.1 I2C protocol study
3.2 Reading Temperature and Relative Humidity value from the sensor.
3.3 Reading Light intensity value from light sensor.
3.4 Reading of atmospheric pressure value from pressure sensor.
3.5 Proximity detection with IR LED.
3.6 Generation of alarm through Buzzer.
3.7 Transmitting the measured physical value from the UbiSense over the Air.
4.1 Demonstration of a Peer-to-Peer network topology using Coordinator and end device network device types.
4.2 Demonstration of Peer-to-Peer communication between Coordinator and end device through Router.
4.3 Establishing Many-to-One Communication ( Star Network Topology)
4.4 Establishing Tree Network Topology
4.5 Establishing Cluster Tree Network
5.1 Porting 6LoWPAN stack on Ubimote for enabling it with IPv6
5.2 6LoWPAN network formation with motes and PC
5.3 IP based lighting control through Data Acquisition Card
5.4 IP based sensor monitoring through UbiSense
Apart from the above listed experiments the Lab Kits can also be further explored by implementing Bluetooth, Wi-Fi and heterogeneous networking protocols that are useful for IoT.
For more details contact:
Nagesh R ([email protected], 080-25093530)Savitha Gowda ([email protected], 080-25093455)Aswath Rao S ([email protected], 080-25093462)
Jayan M P ([email protected], 080-25093545)
Centre for Development of Advanced Computing(A Scientific Society of the Ministry of Electronics and Information Technology, Government of India)
C-DAC Knowledge Park, No. 1, Old Madras Road, Baiyappanahalli, Bengaluru 560 038, Karnataka, (India)Tel: +91-80-25093412, Fax: + 91-80-2524 7724, www.cdac.in