The Internet of Things (IoT) is the next wave, world is going to witness. Today we live in an era of connected devices (mobile phones, computers etc.), the future is of connected things (Things mean: home appliances, vehicles, lamp-posts, personal accessories, your pets, industrial equipment’s and everything which you use in day-to-day life).Internet of Things is a term given to the attempt of connecting objects to the internet and also to each other - allowing people and objects themselves to analyze data from various sources in real-time and take necessary actions in an intelligent fashion.
Many big technology industries like apple, Intel, ARM, Google, IBM, and Microsoft have welcomed IoT and are putting huge investments and R&D efforts in this domain. Cisco’s Internet Business Solutions Group (IBSG) predicts some 25 billion devices will be connected by 2015, and 50 billion by 2020 and the market size, as predicted by GE is 10-20 trillion USD. The Internet of Things is the next revolution for users and brands.
(1) How to fetch the real world Data or Unique Identity Data
(2) How to store these In a Gateway Buffer or How to hold Data
(3) How to pass the Data on to the network for controlling via App or any remote Device
In the Project session, All the participants will be doing their own IoT based mini projects under Geekslab experts. During the workshop, hands on will be done on how input can be taken from sensors, can be transferred to cloud and then be used to control devices/things
1.Integrate various types of sensors to gather real world data
2.processing sensor input by gateway
3.Forwarding processed info to cloud server (using different protocols, MQTT/HTTP with node.jsWeb-socket/mongoDB/BrokerDocker container Python) from anywhere, it can be accessed and commands can be given by end user.
4.Forwarding commands back to gateways from where it can be used to control devices/things
Using these concepts, various applications can be developed in which data is collected from things, accessed by end user from any remote location, and then commands being sent to control our devices from anywhere
- multiple ICs mounted Arduino Board with ATMega 328
• Programming via boot loading through USB Port or 6-Pin ISP (In System Programming) cable.
• Plug & Play device
• Three ports available for user interface: PORTB, PORTC, PORTD
• External Reset Switch
• On board crystal oscillator of 16 MHz frequency
• Two supply inputs: One through USB and Second through Adapter
• On board 5 volt regulated power supply for the board and external peripherals
- USB connecting cable for serial communication
- Relay Module for Arduino
- Motor Driver mounted on Hardware board
- WiFi module
- ESP8266 breakout board
- Various Sensors – Humidity/Temperature
- Various Sensors – Humidity/Temperature
- Breadboard
- LEDs
- Jumper wires
- male-female connected wires
- female to female connected wires- female to female connected wires
- Other required Tools and accessories etc.
IEEE members 650/- per participant
NON IEEE members 1200/- per participant
K.Srinivasa Lokesh:8464962130
K.Sai Sandeep :9000189288