Implementing IoE

1. Implementing IoE Week 1 Assist. Prof. Rassim Suliyev - SDU 2017

2. What is IoT? • Is a network of physical objects (devices) that are embedded with electronics, sensors, software and network • allows objects to be sensed and controlled remotely across existing network infrastructure

3. History • The concept of a network of smart devices was discussed in 1982, at Carnegie Mellon University • The term “Internet of Things” was coined by Peter T. Lewis in a 1985 • The concept became popular in 1999 through AUTO-ID research labs in MIT

4. Development • By 2004 scientists showed its household applications • In 2008-2009 period analysts form Cisco concluded that the number of devices connected to the global network has exceeded the population of the Earth, thus "internet of people" became the "Internet of things"

5. Devlopment • 2009 - with the support of the European Commission in Brussels, annually Conference on “Internet of Things” is held • 2010 - IoT becomes the driving force for the “Fog computing” paradigm

6. Applications of IoT and ES • According to some researches there will be nearly 50 billion devices on the Internet of Things by 2020 • Media • Environmental monitoring • Infrastructure management • Manufacturing • Energy management • Medical and healthcare systems • Building and home automation • Transportation • Large scale deployments • Etc.

7. Technology • Identification • Unique ID (IP address) • Optical ID (bar-code, qr-code, etc) • RFID • etc • Sensing • Light, gas, noise, moisture sensors and etc. • Intellectual counters • Complex measuring circuitry • Communication • Wired (ethernet, SPI, I2R) • Wireless (wifi, bluetooth, rf)

8. Microcontroller systems • Is a small computer on a single integrated circuit containing a processor core, memory, and programmable input/output peripherals • Microcontrollers are designed for embedded applications, in contrast to the microprocessors used in personal computers or other general purpose applications

9. What is an Embedded System • Combines mechanical, electrical, and chemical components along with a computer, hidden inside, to perform a single dedicated purpose • There are more computers on this planet than there are people, and most of these computers are single-chip microcontrollers that are the brains of an embedded system • Hundreds of tiny computers are embedded into our houses, our cars, our bridges, our toys, and our work • Therefore the world needs a trained workforce to develop and manage products based on embedded microcontrollers.

10. Platforms • Arduino • Raspberry Pi • Intel Galileo • Adafruit • SparkFun • ARM mbed • Particle • Etc..

11. What will we use? • Books • Arduino Cookbook, 2nd edition (Michael Margolis) • Arduino Programming Notebook (Brian W. Evans) • Introduction to Embedded Systems (David Russell) • Hardware • Arduino UNO + USB cable • LEDS + resistors(220, 1K, 10K) + breadboard + wires • Potentiometers (variable resistors), buttons • Light dependant resistor, piezo buzzer, tilt sensor, temperature sensor, IR and sonar distance sensors • servo-motor, dc-motor, stepper-motor(and driver) • LCD display, 8x8 led matrix, 7 segment displays, remote IR control • ESP8266 WiFi module • Software • Arduino IDE (software) • Proteus ISIS simulation tool

12. Part List

13. Grading • MID1- 30% • Lab Tasks – 15% • Midterm – 15% • MID2 – 30% • Lab Tasks – 15% • Midterm Project or Quizzes – 10% • Home Tasks – 5% • FIN – 40% • Final Project – 20% • Final Exam – 20%

14. The END • Questions?