Latest DIY Electronics Projects For Students 2023

DIY (Do-It-Yourself) projects can be a great way to learn new skills, save money, and create something unique and personalized.

The Students of Different Grade with different age group built many projects.

The Projects are.

1. Google Assistant Smart Speaker

   

   Building a DIY Google Assistant smart speaker can be a fun and rewarding project. Here are the steps you can follow:

   1. Materials: We will need a Raspberry Pi (a small, inexpensive computer), a speaker, a microphone, a power supply, and an SD card.
   2. Install the Google Assistant SDK: Follow the instructions on the Google Developers website to install the Google Assistant SDK on your Raspberry Pi.
   3. Configure your Google Cloud Platform project: We will need to create a project on the Google Cloud Platform and configure it to use the Google Assistant API.
   4. Set up the hardware: Connect the speaker and microphone to the Raspberry Pi, and make sure everything is connected properly.
   5. Set up the software: Configure the software on the Raspberry Pi to work with the speaker and microphone, and set up the Google Assistant SDK to run automatically when the Raspberry Pi boots up.
   6. Test your Google Assistant: Once everything is set up, test your Google Assistant by saying “Hey Google” or “OK Google” and asking a question or giving a command.
   7. Customize your smart speaker: You can add additional features and functionality to your smart speaker, such as controlling smart home devices, playing music, or setting reminders.

Necessary Devices and Components to Buy form Amazon.in (Affiliate)

1. Raspberry Pi
2.  

1. Face Tracking Robot

   

   Building a face tracking robot can be a fun and challenging project. Here are the steps you can follow:

   1. Gather your materials: You will need a microcontroller (such as an Arduino or Raspberry Pi), a camera module, servos (motors that can rotate to a precise angle), and a power supply.
   2. Connect the camera: Connect the camera module to the microcontroller. Depending on the camera module you’re using, you may need to install additional libraries or drivers.
   3. Program the microcontroller: Write a program that uses the camera module to detect faces and track their movement. This will involve using image processing algorithms to identify the location of the face in each frame of video.
   4. Connect the servos: Connect the servos to the microcontroller. You will need one servo to control the horizontal movement of the camera, and one servo to control the vertical movement of the camera.
   5. Test the face tracking: Once everything is set up, test the face tracking by placing your face in front of the camera and seeing if the camera follows your movements.
   6. Customize your robot: You can add additional features and functionality to your robot, such as voice control, remote control, or the ability to recognize and track multiple faces.

2. Gesture Control Robot

   

   Building a gesture control robot can be a fun and exciting project. Here are the steps you can follow:

   1. Gather your materials: You will need a microcontroller (such as an Arduino or Raspberry Pi), sensors (such as an accelerometer or gyroscope), motor drivers, motors, and a power supply.
   2. Connect the sensors: Connect the sensors to the microcontroller. Depending on the sensors you’re using, you may need to install additional libraries or drivers.
   3. Program the microcontroller: Write a program that reads the sensor data and uses it to control the movement of the robot. For example, you can program the robot to move forward when you tilt your hand forward, or turn left when you tilt your hand to the left.
   4. Connect the motor drivers and motors: Connect the motor drivers and motors to the microcontroller. You will need to use the motor drivers to control the speed and direction of the motors.
   5. Test the gesture control: Once everything is set up, test the gesture control by performing different gestures and seeing how the robot responds.
   6. Customize your robot: You can add additional features and functionality to your robot, such as obstacle avoidance, voice control, or the ability to perform more complex movements.

3. Smart Mirror

   

   Building a smart mirror can be a fun and useful DIY project. Here are the steps you can follow:

   1. Gather your materials: You will need a two-way mirror, a display monitor, a Raspberry Pi or other microcomputer, a power supply, and optional components such as a motion sensor or microphone.
   2. Build the frame: Construct a frame for your smart mirror using wood or other materials. Cut a hole in the frame for the display monitor and attach the two-way mirror to the front.
   3. Set up the display: Mount the display monitor behind the two-way mirror and connect it to the Raspberry Pi. Configure the Raspberry Pi to display the desired information on the screen, such as the weather, news, or a calendar.
   4. Add optional components: You can add a motion sensor to automatically turn on the display when someone is in front of the mirror, or a microphone to enable voice commands.
   5. Install software: Install the necessary software on the Raspberry Pi, such as a web browser or a custom interface. You may also need to install additional software to enable specific features, such as voice recognition or motion detection.
   6. Test your smart mirror: Once everything is set up, test your smart mirror by standing in front of it and interacting with the display.
   7. Customize your smart mirror: You can add additional features and functionality to your smart mirror, such as integrating with smart home devices or displaying personalized information based on the user.

More Diy Projects and complete process for making these projects are updated soon.