Roboki - Session 14

From Yudurobotics

Building the Follow Me Home bot Step-by-Step

Follow Me Home bot built with Roboki, utilizing advanced object detection technology and autonomous movement. This intelligent robot showcases key principles of object recognition and DIY robotics, perfect for young engineers exploring AI-powered robotics and technology integration.
Follow me home bot made using Roboki.
Description :

Build an Object Detection Robot with our DIY project! Using object recognition technology, this robot identifies various objects and reacts based on what it detects. Program the robot to respond to its environment with precise movements, showcasing the principles of autonomous robotics. Follow our step-by-step guide to create your own intelligent robot and explore the fascinating world of object detection and robotics. Perfect for young engineers interested in learning about robotics and technology integration.

Contents :

1. HARDWARE

  • Let's Make it!
  • 1.1 What do we need ?
  • 1.2 How is it Made ?

2. SOFTWARE

  • 2.1 Let's Code it !

3. WHAT NEXT?

  • Challenge!
Follow Me Home bot made with Roboki, detecting objects and autonomously tracing its path toward them using AI object recognition. This robot exemplifies cutting-edge technology in autonomous robotics and object detection, perfect for STEM learners and robotics enthusiasts.
Follow me home bot detecting objects and tracing its path towards the objects.

Before we begin, take a look at the picture of the bot to get a better understanding of the different parts of this bot.

1.HARDWARE

Let's make it!

We are going to follow the steps in this tutorial to assemble our follow me home bot. Look carefully into each of the images and follow the instructions one by one to make this follow me home bot. The colour of the blocks and parts used in the construction might differ from original, So carefully follow the instruction given below.

1.1 What do we need ?

Given below are the materials required to build the Follow me home bot.

Materials required to build the Follow Me Home bot, including the Roboki microcontroller, sensors, and motors for autonomous movement and object detection. This DIY robotics project introduces key concepts in AI-driven object recognition and sensor-based navigation for enthusiasts and young engineers.

1.2 How is it made ?

Follow the steps carefully to build our Follow me home Robot

1. Take the two motors and attach the 3 pegs as shown below.


ttaching motors with three pegs to build the Follow Me Home bot, utilizing Roboki for autonomous movement, object detection, and robotics programming.


2. Place the 15 by 11 block on a flat surface.


Placing the 15 by 11 block on a flat surface as the base for the DIY Follow Me Home robot, integrating motors and Roboki for STEM robotics projects.


3. Connect the motor to this block as shown in the image.


Connecting the motor to the block for the Follow Me Home robot project, showcasing robotics construction and autonomous robot navigation using Roboki.


4. Similarly, connect the other motor to this block.


Attaching the second motor to the block, advancing the assembly of the autonomous Follow Me Home robot with motor-driven movement and Roboki control.


5. Once the setup is ready carefully attach axle 5 to each of the motors. With this we have created an extension to mount our wheels on.


Attaching axle 5 to each motor to prepare the Follow Me Home robot for wheel mounting, enhancing mobility with Roboki's precise control for object detection.


6. Connect wheels to axles on both sides.


Mounting wheels on the axles for the Follow Me Home robot, enabling smooth autonomous navigation with Roboki and motor-driven movement.


7. Take the pin connector and connect it to the opposite side of the motors on the block as shown below.


Connecting the pin connector to the opposite side of the motors on the block, further stabilizing the Follow Me Home robot for sensor integration with Roboki.


8. Now, take the caster wheel and by using the block joiner connect it to the pin connector on the block.


Attaching the caster wheel to the pin connector using the block joiner, enhancing the Follow Me Home robot's mobility and object detection capabilities with precise Roboki control.

Attaching the caster wheel to the pin connector using the block joiner, preparing the Follow Me Home robot for enhanced movement and object detection.


9. Take one beam 15 and attach two friction pegs to first and last holes of the beam.


Attaching two friction pegs to the first and last holes of Beam 15, advancing the construction of the Follow Me Home bot with stable support for motor control.


10. Attach the beam 15 to the underside of the block, this step is a bit tricky so do it carefully and ensure that your structure looks similar to the image below.


Securing Beam 15 to the underside of the block, carefully aligning the Follow Me Home robot structure for precise sensor-based movement.


11. Take one beam 5 and attach two friction pegs to the first and last holes of the beam.


Attaching Beam 5 with two friction pegs to complete the upper structure, stabilizing the Follow Me Home robot for enhanced navigation and control.


12. Attach the beam 5 on top of the beam 15 as shown in the figure below.


Attaching Beam 5 on top of Beam 15 to strengthen the Follow Me Home bot structure, enabling better sensor detection and autonomous movement.


13. Take the 1 by 6 brick with holes and connect two 90 degree pegs to it and then mount it on the Beam 5 as shown in the image.


Attaching the 1 by 6 brick with holes and connecting two 90-degree pegs to the Beam 5, showcasing the assembly of an AI-driven robot. This step highlights easy robots construction for robotics enthusiasts, integrating AI in robotics for interactive robot projects.

Connecting the 1 by 6 brick with 90-degree pegs to the Beam 5, preparing the Follow Me Home robot for Roboki integration and advanced navigation.


14. Next, connect the Roboki on top of the structure as shown in image, used the bricks on the underside of robot to alignn with the central beam and fix it in place by applying pressure. During this step make sure you support the body of the bot from below too.so that the pressure does not break the structure.


Mounting the Roboki microcontroller on top of the structure, finalizing the Follow Me Home bot’s setup for autonomous robot operation and object detection.


15. Now we must connect the motors to the Roboki. Remember the ports to which each motor is connected and programme it accordingly. (Refer to "Roboki Session 4" )


Connecting the motors to Roboki, ensuring the Follow Me Home robot is ready for programming and sensor-based autonomous navigation.


2. SOFTWARE

2.1 Let's Code it !

Now that our Bot is ready, we need to programme it using Plode to make it follow objects path.Follow the step by step instruction in the video given below to programme our follow me home bot.


3. What Next?

Challenge!

Create a Robot that can detect specific persons and perform different actions for each detected person using the App Mode’s face detection feature.

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