Robotics Embedded Systems RoboSpecies Technologies Pvt. Ltd.

Course Details of WTP 2016

Internet of Things(ADVANCE MODULE)
Name of Courses Duration Fee Syllabus
Internet of Things (ADVANCE MODULE) 45 Days/6 Weeks Rs. 9,990/- only
Internet of Things(ADVANCE MODULE)
Embedded System refers to a system that resides completely inside the device it control. In terms of robotics and the science of robots embedded systems plays a very vital role as it is the backbone of robotics.

Almost every device that we use in our day to day life depends on embedded systems. Every time we can't go by placing components on bread board, which may not be sophisticated and may have loose connections which it can't be used in rough condition.
Course Details :
(ADVANCE MODULE) Internet of Things
Days Topics Covers
Day 01
Theory
Introduction to Internet of Things
• What is Internet?
• The Technology "Internet of Things"
• Usefulness of IoT
• Professional Benefits
•Application of IoT
• New and Upcoming Technologies.
Day 02
Theory
The “Things” explanation.
• Embedded systems
• Input and Output devices
• Analog and Digital sensors.
• Actuators.
Practical
• To Figure out input and output devices.
• Which device is analog and which one is digital?
• Sensor and actuator applications
Day 03
Theory
• Introduction to embedded system
• Components of embedded systems.
• The controlling unit “Microcontroller”.
• Hardware parts.
Day 04
Theory
• Sensors, Demystified.
• Sensors specification
• How to use sensors.
• Types of sensors.
Practical
• Calibration of sensors.
Day 05
Theory
• Integrating peripherals.
• Peripherals explanation.
• Understanding communication protocols
• Serial and parallel communication.
• UART, SPI, I2C communication.
Practical
• Receiving data from sensors serially.
Day 06
Theory
Interfacing arduino and sensors
• Explanation of software and hardware.
• The Arduino IDE.
• Programming the sensors.
Practical
• Reading the values from sensors.
Day 07
Project
Day 08
Theory
Introduction to internet protocols
• Transmission control/ Internet Protocol.
• Used datagram protocol.
• Network topologies.
• Understanding IPv4 & IPv6.
Day 09
Theory
• Welcoming SMART HOME CONCEPT
• Motors
• IR Sensors
• Temperature sensor
• LDR
• Relay
• Water level indicator.
Practical
• Interface Motor Driver with IR sensor.
• Calibration of IR sensors
° What is it?
° Why is it Required?
Day 10
Theory
Creating web page using arduino programming with basic HTTP
• Preface to Hyper Text Markup Language coding
• Elements of HTML.
• HTTP.
Practical
• Creating the web page
Day 11
Video Session
Day 12
Theory
• Introduction to Basic Shield.
• What is the requirement of Basic Shield?
• Operation of Analog and Digital Signals.
• 8 Bit and 10 Bit Concept.
Practical
• Interfacing Basic Shield with Arduino
• Lighting up several LED’s in a Wishful Pattern
• Working on Switch, BUZZER and implementing with Arduino for better grasping of concepts. Interfacing Motors through sensors via Arduino.
Day 13
Completion of led blink over internet.
Day 14
Competition, Doubts & Practical Session
Day 15
Project
Day 16
Theory
• • Serial and Parallel Communication.
• • Hello to Analog I/P and O/P.
• • Introduction to ADC
Practical
• Interfacing Potentiometer and LDR with ARDUINO
• Interfacing Motor Driver with ARDUINO
• Speed Control of Motors using PWM
Day 17
Theory
• Introduction to Temperature sensor.
• Applications of temperature sensor.
Practical
• Testing of temperature sensor.
• Integrating of temperature sensor with microcontroller.
• Temperature control over the internet.
Day 18
Theory
• Introduction to LDR.
• Advanced applications of LDR.
Practical
• Testing of LDR.
• Integrating LDR with microcontroller
• Light control over internet.
Day 19
Theory
• Introduction to RELAYS
• Pin description of various relays.
• How to check relays?
Practical
• Integration of relays with microcontroller.
• Integrating Digital Signals.
• Switching of relays to control temperature and light over the internet.
Day 20
Theory
• Introduction to Water level indicator.
• Application of water level indicator.
Practical
• Integration with microcontroller.
• Getting water levels onto internet.
Day 21
Project
Day 22
Project
Day 23
Theory
• IoT Health Care
• Temperature measurement.
• Pulse detection.
• Axis control.
• Display.
Day 24
Theory
• LCD (Liquid Crystal Display).
Practical
• Making Connections of LCD with Arduino
• Generating name and number pattern.
• Generating custom characters.
Day 25
Theory & Practical
• Temperature measurement using temperature sensor.
• Getting AID for temperature variations.
• Feeding temperature over the internet.
• Displaying the temperature on the LCD.
Day 26
Theory
• Introduction to PULSE SENSOR.
• Pulse measurement
• Introduction to Processing Command Window.
• Generating graph of pulse on processing window.
Day 27
Theory
• ULTRASONIC SENSOR
• Application of Ultrasonic Sensor.
Practical
• Integrating with microcontroller
• Distance measurement using Ultrasonic Sensor
• Feeding data of distance over the internet.
Day 28
Project
Day 29
Competition, Doubts & Practical Session
Day 31
Theory
Introduction to Internet of Things
• RFID tags
• IR control
• Humidity monitoring
• Relay switching
• Load calculation
• Light intensity measurement
Practical
• Introduction to Accelerometer
• Applications of Accelerometer
• Integrating with Arduino
• Making Axis data available to web server
Day 32
Theory & Practical
• Introduction to humidity sensor
• Calibration of sensor
• Nature of sensor
• Application of humidity sensor
• Making of humidity control system
Day 33
Theory & Practical
• Making of temperature control environment
• Integrating Temperature sensor and relay
• Smart temperature control
Day 34
Theory & Practical
• Introduction to PIR Sensor
• Calibration of PIR Sensor
• Integrating with arduino.
• Feeding the data on web.
Day 35
Theory
• Automatic Light activation system
• Making of Light control device
• Getting info through web to control lights
Day 36
Project
Day 37
Competition, Doubts & Practical Session
Day 38
Theory
Agricultural usage of IoT.
• Temp
• Humidity
• Moisture
• Light calculation
• Water level indicator for irrigation
Day 39
Theory & Practical
• Introduction to Moisture sensor
• Sensor calibration
• Integrating with arduino
• Making moisture content data available to web server
Day 40
Theory & Practical
• Introduction to humidity sensor
• Calibration of sensor
• Nature of sensor
• Application of humidity sensor
• Making of humidity control system.
Day 41
Theory & Practical
• Making of temperature control environment
• Integrating Temperature sensor and relay
• Smart temperature control
Day 42
Theory
Introduction to Internet of Things
• Temperature sensor
• Moisture sensor
• Humidity sensor
• Light control sensor
• Relay
Day 43
PROJECT
Day 44
Competition, Doubts & Practical Session
Day 45
Certificate Distribution Cum Farewell Ceremony
KIT CONTENTS :
KIT FOR ADVANCE MODULE
Arduino Uno Board (1) Wifi Board ESP8266 (1)
Basic Shield (1) RoboSpecies Chassis (1)
BO Motors (2) IR Sensor (1)
Electronica Kit (1) Wheels (2)
Caster Wheel (1) Screw driver (1)
Screw packet (1) Single Strand Wires
LCD Shield (1) Motor Driver board (1)
Temperature Sensor (1) Light Control Sensor (1)
Relay (1) Pulse Sensor (1)
Ultrasonic Sensor (1) Humidity Sensor (1)
Accelerometer (1) PIR Sensor (1)
Robotics Made Easy-Robotic eBook (1) CD (1)
Study Material.
PROJECTS :
PROJECT LIST FOR ADVANCE MODULE
1. Blink a LED using a switch
2. Glowing LEDs in pattern of your own choice.
3. Designing of RGB color pattern
4. Automatic light control system
5. Transistor as a touch switch
6. Transistor as a NOT Gate
7. Transistor as an amplifier
8. Daily alarm clock
9. Flood control alarm system
10. Generation of MIDI tones
11. Intelligent blind stick
12. Manual robotic car
13. Automatic line follower Robot
14. Automatic obstacle detection System
15. LDR based Darkness activation system
16. LDR based Light activation system
17. Voltage divider system
18. Pulse generation using 555
19. Automatic blinking of light
20. Automatic blowing of buzzer
21. Dc motor speed control using PWM
22. Automatic speed controlled BOT
23. Edge avoider BOT
24. Wall Follower BOT
25. Obstacle avoider BOT
26. Traffic control system
27. Visitor counting application
28. Scroll strings on LCD
29. Line follower BOT displaying the directions
30. Controlling buzzers and LED using serial communication
31. LED Blinking using Accelerometer
32. Gesture Recognition using Accelerometer
33. Motor Control using Accelerometer
34. Getting real world temperature using arduino
35. Controlling motors using temperature sensor.
36. Controlling gateways using temperature sensor.
37. Feeding data over the internet of temperature sensor
38. Reading the humidity level of environment for smart home.
39. Adjusting Air conditions for the smart home
40. Feeding the above information from internet.
41. Getting light levels of environment.
42. Adjusting brightness using light sensor
43. Reading the values of light sensor from internet
44. Getting online status of lights
45. Working on different relays
46. Controlling motors using relays
47. Controlling home appliances using relays
48. Feeding and reading the data of different home appliances over the internet
49. Security control using RFID and internet
50. Working with load cell.
51. Getting live update of moisture content in soil using moisture sensor.
52. Smart irrigation system
53. Controlling motors using moisture sensor over the internet
54. Working with pulse sensor
55. Generating graph of heart beat using pulse sensor
56. Online update of heart rate
57. Working with water level indicator
58. Making of water level indicator and calculating the moisture
59. Working with accelerometer sensor
60.Gesture control robot using accelerometer
CERTIFICATION
International Certification from
RoboSpecies Technologies Pvt. Ltd.
Accredited By

IAO HOUSTON, USA

Why Internet of Things Training from RoboSpecies Technologies ?
1. Lot of Major Projects will be covered in this Training.
    • 20+20 projects are covered in Basic Module
    • 20+20+20 project are covered in Advance Module
    • 9 optional major projects
2. Our syllabus is professionally designed to cover Basic as well as Advance aspects of Embedded Systems & Robotics
3. Each day of our training is well planned to provide you with Theoretical as well as Practical Knowledge of the module
4. Each day will come up with New Practicals & Projects which makes the training interesting and exciting.
5. Time to time Practical Assignments will be provided to the students, which will help them in doing practice at home.
6. Revision Time & Query Sessions are provided to the students which help them in clearing previous doubts.
7. Exam will be conducted at the end of basic as well as Advance module to test the knowledge level of the students.
8. Time for Project Workshop will be provided to the students, in which students will develop a project of their own choice. This will encourage Innovative Ideas among students.
Pre - Requisites
Basic knowledge of C \ C++ Programming.
Basics of Electronics.
Eagerness to learn new innovative things.
Who Could Attend this Training ?
Students from B.E/B.Tech/M.Tech/Diploma (ECE/EEE/CSE/IT/MECH) can join this training.
Anyone who have interest in this field and have pre-requisite knowledge.

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