IoT (Internet of things) Arduino Platform
– Offline
- 7500/-
Explore advanced robotics concepts and build complex projects in a dynamic and immersive 15-day program.
Courses Includes
Who Can Learn ?
Enthusiasts
8+ Age
Technologies and Tools
Arduino IDE
Sensors
Actuator
Power Distribution
Embedded C
Provisions during Bootcamp
Robotic Kit
Hardware & Tools
Safety gyres
IoT (Internet of things) Arduino Platform
Duration
- Course Hours: 1.5hrs/Day
- Course Duration: 1 month
Pre-requisties
- Basic Knowledge of Computer
Payments Modes
- Prepaid Payment
Course Curriculum
- What is Electricity And Why we need it?
- How we get Electricity at our Home?
- Different Sources of Electricity – AC vs. DC
- Concept of Voltage and Current
- Power vs. Torque
- Concept of Safety for working with Electronic Devices.
- Use of Breadboard and Connecting Wires.
- Resistor types and how to calculate it?
- LED types and identification of its Polarity.
- Working of Microswitch with LED.
- Microswitch and DC Buzzer
- Concept of RGB LEDs.
- 7 Segment display.
- Concept of Transformers and DC Adapters.
- How to use Filtering Capacitor.
- Types of Voltage Regulators.
- Concept of Ground vs. Voltage.
- Embedding Power indicator to Circuit.
- Concept of Transformers and DC Adapters.
- How to use Filtering Capacitor.
- Types of Voltage Regulators.
- Concept of Ground vs. Voltage.
- Embedding Power indicator to Circuit.
- Overview of Robotics : History and Applications.
- Mechanical Robots vs. Automated Robots.
- Rover, Bi-pad Robot, Humanoid Robot
- Robotics parts : Sensors, Actuators and Controllers.
- Assembling of a Simple Robot.
- Types of Motors : DC motor, Servo motor
- Controlling Direction of DC motor.
- Types of Tyres.
- Wooden Chasis vs. Metal Chasis.
- Caster Wheel.
- Embedding of Motors and Tyres with Chasis.
- Use of L293D DC Motor controller.
- Types of Motors : DC motor, Servo motor
- Controlling Direction of DC motor.
- Types of Tyres.
- Wooden Chasis vs. Metal Chasis.
- Caster Wheel.
- Embedding of Motors and Tyres with Chasis.
- Use of L293D DC Motor controller.
- Types of Sensors: Resistive and Capacitive.
- How Sensors Work and Their Applications in Robotics.
- IR Sensor vs. LDR sensor.
- Hands-on Activity: Integrating Sensors with Your Robot
- Testing and Troubleshooting sensors under different Environments.
- Types of Sensors: Resistive and Capacitive.
- How Sensors Work and Their Applications in Robotics.
- IR Sensor vs. LDR sensor.
- Hands-on Activity: Integrating Sensors with Your Robot
- Testing and Troubleshooting sensors under different Environments.
- Types of Sensors: Resistive and Capacitive.
- How Sensors Work and Their Applications in Robotics.
- IR Sensor vs. LDR sensor.
- Hands-on Activity: Integrating Sensors with Your Robot
- Testing and Troubleshooting sensors under different Environments.
Add On Projects
- Powering up the Robot and Testing its working.
- Adjustment of Sensors According to Environment.
- Troubleshooting of Various Problems.
- Adding Personal touch to your Robot.
- Additional Resourses and Tutorials for more Enhancement.
- Joining of Robotics Community.
- Certification and Awards of Course Completion.
- Introduction to advanced programming concepts (functions, loops, conditional statements)
- Implementing advanced features in robot programming
- Real-time debugging and optimization
- Basics of wireless communication (Bluetooth, Wi-Fi)
- Interfacing wireless modules with microcontrollers
- Remote control and monitoring of robots
- Concepts of autonomous navigation
- Implementing basic algorithms for obstacle avoidance and pathfinding
- Real-world applications of autonomous robots
- Using advanced sensors (LIDAR, camera modules)
- Data processing and analysis
- Integrating advanced sensors into robot projects
- Introduction to robotics simulation software (Gazebo, V-REP)
- Building and testing robot models in a virtual environment
- Benefits and applications of simulation in robotics
- Students work on a comprehensive final project incorporating all learned concepts
- Project presentation and demonstration
- Feedback and evaluation
Validate Your Skill
By completing this course, you will validate your expertise in IoT (Internet of Things) using the Arduino Platform. You’ll gain a thorough understanding of IoT components and their applications, mastering both theoretical concepts and practical skills in IoT system design. The course emphasizes hands-on projects and Arduino-based IoT platforms, allowing you to build and test connected systems effectively. Earning your certification will not only demonstrate your dedication and expertise in IoT but also enhance your professional profile, making you more attractive to employers and educational institutions.
By completing this course, you will validate your expertise in IoT (Internet of Things) using the Arduino Platform. You’ll gain a thorough understanding of IoT components and their applications, mastering both theoretical concepts and practical skills in IoT system design. The course emphasizes hands-on projects and Arduino-based IoT platforms, allowing you to build and test connected systems effectively. Earning your certification will not only demonstrate your dedication and expertise in IoT but also enhance your professional profile, making you more attractive to employers and educational institutions.
Learning Outcomes
- Understand the concept of IoT and networks and their key components.
- Work with IoT Arduino boards like NodeMCU, ESP8266, and ESP32
- Configure IoT boards using Arduino IDE for development and testing.
- Interface hardware and sensors with NodeMCU for real-time data collection.
- Send and receive data through web and Android apps for monitoring.
- Create your own web page for IoT communication and data exchange.
- Integrate MQTT and IFTTT protocols for automation and communication.
- Interface AI using Amazon Alexa and Google Assistant for voice control.
IoT (Internet of things) Arduino Platform
Duration
- Course Hours: 1.5hrs/day
- Course Duration: 1 month
Pre-requisties
- Basic Knowledge of Computer
payments Modes
- Prepaid Payment