|> A quick overview
Curious about creating & controlling Awesome Robots and Devices, you have come to the right place. Learn the technology and programming required to design a fully functional Robots & Devices. For many years now, people have been studying the forces of nature and bringing them under control. Learn to use power of electronics to operate Robots & different Machines. Last century is known for the creation of state-of-art Robots & Machines which can address critical task & take decision. Logiczap NextGen brings those technology in their specially design Robotics LAB, where any passionate person can learn all this technology through hands-on practical learning.
In our Professional Certification Program on Wireless Robotics Course, you will learn to design and develop robots & devices that work independently, will make their own decisions, act, move, communicate with each other and people around, and control other devices as well. We will teach you how to create such robots & devices, and program them.
After this course, you will be able to create robots & devices that read data from variety of sensors, receive and forward data wirelessly, take decision & perform different task. The creation of such devices will involve design, the study of their components, programming logic, and hardware.
|> Course Outline
1. Course Introduction
2. Introduction to Microcontroller
3. Introduction to Arduino
4. Arduino Programming
5. Interface I/O device with Arduino
6. DC Motors & Motor Drivers
7. DTMF with Arduino
8. Mobile Controlled Robots
9. Accelerometer with Arduino
10. Wireless Gesture Controlled Robots
11. Interface Relay with Arduino
12. 433MHz RF Communication
13. Remote Controlled Robot
14. Wireless Home Automation System
15. Bluetooth Communication with Arduino
16. Bluetooth Controlled Robot
Get counselled by our experts - you are just a click away
Get one-to-one counselling from industry experts, know the scope of the training program, its outcome and which course should you choose??
Understand the detailed syllabus, practical activities to be performed and many more.
This brain storming counselling session will help you to choose right course with clear prospective and mind.
|> Detailed Course structure
/1. Course Introduction
-
Theory: Introduction to Robotics
-
Theory: Career in Robotics
-
Theory: Industry Overview
/2. Introduction to Microcontroller​​
-
Theory: What is a Microcontroller
-
Theory: Microprocessor vs Microcontroller
-
Theory: Architecture of a Microcontroller
-
Theory: Input/output Peripherals
-
Theory: Analog to Digital Converter
-
Practical: Connect I/O device with Controller
-
Review: Microcontroller - An Introduction
/3. Introduction to Arduino
-
Theory: Introduction to Arduino
-
Theory: Different Arduino Board
-
Theory: Features of Arduino
-
Theory: Selecting the Right Arduino Board for Your Project
-
Theory: Fundamentals of Arduino Electronics
-
Theory: Detailed Pin Mapping and Auxiliaries
-
Practical: Connect & Detect an Arduino
-
Review: Arduino - An Introduction
/4. Arduino Programming
-
Theory: Introduction to Arduino IDE
-
Theory: Drivers and Software Installation
-
Theory: How to Program in Arduino
-
Practical: Hands-on Programming in Arduino IDE
-
Theory: Advance Level Programming in Arduino
-
Practical: Getting used to Arduino IDE
-
Practical: Structure of an Arduino Program
-
Theory: LED Interfacing with Arduino
-
Practical: Program in Arduino - Blink an LED
-
Theory: Arduino Serial Communication
-
Practical: Program in Arduino - Print in Serial Monitor
-
Theory: Pulse Width Modulation
-
Practical: Controlling brightness of a LED
/5. Interface I/O device with Arduino
-
Theory: Digital Input Processing Theory
-
Practical: Detecting Switch Inputs on Arduino Pins
-
Theory: Interfacing a Buzzer with Arduino
-
Practical: Generating Tones using Buzzer
-
Theory: Interfacing 16X2 LCD with Arduino
-
Practical: Displaying Text on 16X2 LCD
-
Theory: Interfacing 20X4 LCD with Arduino
-
Practical: Displaying Text on 20X4 LCD
-
Theory: Interfacing Potentiometer with Arduino
-
Practical: Displaying Potentiometer data in LCD
-
Practical: Displaying Potentiometer data in Serial Monitor
-
Theory: Interfacing Keypad with Arduino
-
Practical: Displaying Keypad data in LCD
-
Practical: Displaying Keypad data in Serial Monitor
-
Review: Introduction to Arduino I/O Interface
/6. DC Motors & Motor Drivers
-
Theory: DC Motors & their Working
-
Theory: Different Type of DC Motors
-
Theory: Introduction to Motor Drivers
-
Theory: Understanding Motor Drivers Circuit
-
Practical: Interface different Motors with Arduino
-
Practical: Interface Motor Drivers with Arduino
-
Practical: Design Sketch to Control Motor with Arduino
-
Practical: Interface & Test Motor with Arduino
-
Practical: Design Sketch to move your Arduino Robot
-
Review: Interface Motors & Motor Drivers for the Arduino Robotics
/7. DTMF with Arduino
-
Theory: Introduction to Dual tone multi frequency (DTMF)
-
Theory: Application & Working of DTMF
-
Theory: Implement DTMF as a method of communication
-
Practical: Interface DTMF Module with Arduino
-
Practical: Design Sketch to Read data from DTMF Module
-
Practical: Design Sketch to Display data of DTMF Module in LCD & Serial Monitor
-
Practical: Design Sketch to control LED using DTMF Data
-
Review: Dual tone multi frequency (DTMF)
/8. Mobile Controlled Robots
-
Theory: Introduction to Mobile Controlled Robot
-
Theory: DTMF Decoder and It’s Working
-
Practical: Interface DTMF Decoder with Arduino
-
Theory: Programming Logic for DTMF Decoder
-
Practical: Detect DTMF Tones with Arduino
-
Practical: Use DTMF data to Control Motor Movement
-
Practical: Design Arduino Sketch to Control Robot
-
Theory: Programming Logic for Mobile Robot
-
Practical: Design Arduino Sketch for Mobile Controlled Robot
-
Practical: Testing the Mobile Robot
-
Review: Mobile Controlled Robot
/9. Accelerometers with Arduino
-
Theory: Introduction to Accelerometer Sensors
-
Theory: Accelerometer sensor application & Working
-
Practical: Interface Accelerometer with Arduino
-
Practical: Design Sketch to Read data from Accelerometer
-
Practical: Design Sketch to Display data of Accelerometer in LCD & Serial Monitor
-
Review: Accelerometers Sensor
/10. Wireless Gesture Controlled Robots
-
Theory: Introduction to Wireless Gesture Controlled Robots
-
Theory: Design & Development of Wireless Gesture Controlled Robots
-
Practical: Interface Accelerometer with Arduino
-
Practical: Interface RF Transmitter and Receiver with Arduino
-
Practical: Interface Components with Arduino
-
Practical: Design Sketch to Read data from Accelerometer
-
Practical: Design Sketch to send Accelerometer data using RF
-
Practical: Design Sketch to for a Gesture Control Robot (Wireless)
-
Review: Accelerometers and Wireless Gesture Control Robot
/11. Interface Relay with Arduino
-
Theory: Introduction to Relays
-
Theory: Method of operation & Applications
-
Theory: Interface Relay Module with Arduino
-
Theory: Control High Power Devices using Arduino
-
Practical: Design Arduino Sketch to Control Relay
-
Practical: Interface High Voltage Devices with Relay
-
Practical: Controlling High Voltage Devices using Arduino
-
Review: Working of Relays
/12. 433MHz RF Communication
-
Theory: Introduction to RF Communication
-
Theory: Introduction to 433MHz RF Transmitter and Receiver
-
Theory: Implement 433MHz RF as a method of communication
-
Theory: RF Encoder & Decoder and It’s Working
-
Theory: 433MHz RF Module and It’s circuit
-
Theory: Programming Logic for RF Data Transmission
-
Practical: Interface RF Module with Arduino
-
Practical: Transmit and Receive data with RF Module & Arduino
-
Practical: Display Received Data in LCD/ Serial Monitor
-
Review: RF Communication
/13. Remote Controlled Robot
-
Theory: Introduction to Remote Controlled Robot
-
Theory: Method of operation & Applications
-
Theory: Interface of Components
-
Theory: Programming Logic for Remote Controlled Robot
-
Practical: Interface RF Transmitter with Control Switches
-
Practical: Transmit and Receive data with RF Module & Arduino
-
Practical: Display Received Data in LCD/ Serial Monitor
-
Practical: Interface RF Receiver with Arduino Robot
-
Practical: Design Arduino Sketch to Control Robot Wirelessly
-
Practical: Run your Remote-Controlled Robot
-
Review: Remote Controlled Robot
/14. Wireless Home Automation System
-
Theory: Introduction to Wireless Home Automation System
-
Theory: Design Home Automation System
-
Practical: Interface Sensors & Relay Module with Arduino
-
Practical: Interface High Power Home Appliance with Arduino
-
Practical: Design Arduino Sketch to Control Home Appliance
-
Practical: Design Arduino Sketch for Wireless Communication
-
Practical: Design Arduino Sketch for Wireless Home Automation System
-
Review: Controlling Home Appliance
/15. Bluetooth Communication with Arduino
-
Theory: Introduction to Bluetooth Communication
-
Theory: Implement Bluetooth as a method of communication
-
Theory: Application of Bluetooth communication
-
Practical: Interface Bluetooth Module with Arduino
-
Theory: Programming Logic to Read Data from Bluetooth Module using Arduino
-
Practical: Design Sketch to Read Data from Bluetooth Module
-
Practical: Build your own BLE enabled embedded devices
-
Practical: Using Bluetooth for control LEDs
-
Practical: Design Sketch to Display Bluetooth data in LCD & Serial Monitor
-
Review: Bluetooth Technology
/16. Bluetooth Controlled Robot
-
Theory: Introduction to Bluetooth Controlled Robots
-
Theory: Programming Logic for Bluetooth Controlled Robots
-
Theory: Interface Bluetooth Module with Arduino Robot
-
Practical: Connections between components
-
Practical: Design Arduino Sketch for Bluetooth Module
-
Practical: Design Arduino Sketch to control the Robot using Bluetooth
-
Review: Bluetooth Controlled Robots