Roboki - Session 7: Difference between revisions
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==== Description : ==== | ==== Description : ==== | ||
[[File:Remote controlled robot.png|thumb|405x405px|Remote controlled robot made using motors and powered by Roboki.]] | [[File:Remote controlled robot.png|thumb|405x405px|Remote controlled robot made using motors and powered by Roboki.|alt=A remote-controlled robot made using motors and powered by Roboki showcases the engaging robotics project. This robot highlights precise robot movement control, enhancing maneuverability and navigation. Perfect for beginners, this DIY robot project offers hands-on learning in remote robot operation, demonstrating the capabilities of Yudu Robotics in the world of interactive robotics.]] | ||
Elevate your skills in robot control with this engaging project! Utilize the in-app remote feature to program and direct your robot’s forward, backward, left, and right movements, enhancing its maneuverability and interaction with its environment. This activity emphasizes precise robot movement control and navigation, offering an interactive experience in robotics. Perfect for beginners, it provides hands-on learning in remote robot operation and navigation. Explore the world of remote-controlled robotics and discover how to enhance your robot’s mobility and performance!. | |||
{| class="wikitable" | {| class="wikitable" | ||
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'''3. WHAT NEXT?'''*Challenge! | '''3. WHAT NEXT?'''*Challenge! | ||
|} | |} | ||
[[File:Remote controlled car working.gif|thumb|476x476px|Remote controlled robot made using Roboki being controlled with a remote controller.]] | [[File:Remote controlled car working.gif|thumb|476x476px|Remote controlled robot made using Roboki being controlled with a remote controller.|alt=A remote-controlled robot made using Roboki is being controlled with a remote controller, demonstrating precise robot movement control. This engaging project highlights the interactive experience in robotics and enhances the robot's maneuverability and navigation. Perfect for beginners.]] | ||
Before we begin, take a look at the picture of the bot to get a better understanding of different parts of our Remote controlled car. | Before we begin, take a look at the picture of the bot to get a better understanding of different parts of our Remote controlled car. | ||
=='''1. HARDWARE'''== | =='''1. HARDWARE'''== | ||
===Let's make it!=== | ===Let's make it!=== | ||
We are going to follow the steps in this tutorial to assemble our gaming | We are going to follow the steps in this tutorial to assemble our gaming car. Look carefully into each of the images and follow the instructions one by one to make our remote controlled car. 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 ?'''=== | ==='''1.1 What do we need ?'''=== | ||
Given below are the materials required to build the Remote controlled car. | Given below are the materials required to build the Remote controlled car. | ||
[[File:Materials required Remote controlled car.jpg|frameless|914x914px]] | [[File:Materials required Remote controlled car.jpg|frameless|914x914px|alt=This engaging project in DIY robotics showcases essential components for mobile robot design, emphasizing hands-on learning in remote robot operation and navigation. Explore robotics concepts while assembling your own innovative robot car powered by Yudu Robotics, perfect for beginners in remote-controlled robotics.]] | ||
==='''1.2 How is it made ?'''=== | ==='''1.2 How is it made ?'''=== | ||
====Follow the steps carefully to build the Remote controlled car.==== | ====Follow the steps carefully to build the Remote controlled car.==== | ||
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[[File:Part assembly 1.png|frameless|454x454px]] | [[File:Part assembly 1.png|frameless|454x454px|alt=ttaching two motors to a remote-controlled robot using three pegs, essential for building a mobile robot powered by Roboki. This hands-on project enhances understanding of robotics concepts and provides practical experience in remote robot operation. Perfect for beginners, this DIY activity emphasizes precision in robot design and assembly while exploring the world of remote-controlled robotics.]] | ||
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[[File:Part assembly 2.png|frameless|326x326px]] | [[File:Part assembly 2.png|frameless|326x326px|alt=Placing the 15 by 11 block on a flat surface, a crucial step in constructing a remote-controlled robot using Roboki. This hands-on robotics project focuses on foundational building techniques and precision in mobile robot assembly. Ideal for beginners, it enhances skills in robot design and remote operation, encouraging exploration in the field of DIY robotics.]] | ||
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[[File:Beam+motor.png|frameless|452x452px|link=File:Beam motor.png]] | [[File:Beam+motor.png|frameless|452x452px|link=File:Beam motor.png|alt=Connecting the motor to the block as demonstrated, an essential step in building a remote-controlled robot powered by Roboki. This interactive robotics project emphasizes precision in robot assembly and movement control, allowing beginners to learn about mobile robot design and programming. Engaging in DIY robotics fosters essential skills in remote operation and navigation, making it a perfect hands-on learning experience.]] | ||
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[[File:Beam+motor2.png|frameless|450x450px|link=File:Beam motor2.png]] | [[File:Beam+motor2.png|frameless|450x450px|link=File:Beam motor2.png|alt=Connecting the second motor to the block, continuing the assembly of the remote-controlled robot powered by Roboki. This step is crucial in ensuring precise robot movement control and navigation in this engaging DIY robotics project. By focusing on mobile robot design and programming, beginners enhance their skills in remote operation and interactive robotics, paving the way for an exciting hands-on learning experience.]] | ||
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[[File:Beam+motor3.png|frameless|452x452px|link=File:Beam motor3.png]] | [[File:Beam+motor3.png|frameless|452x452px|link=File:Beam motor3.png|alt=Carefully attaching axle 5 to each motor, completing the setup for the remote-controlled robot powered by Roboki. This crucial step in mobile robot design allows for precise robot movement control and enhances maneuverability as we prepare to mount the wheels. By focusing on interactive robotics and DIY projects, beginners engage in hands-on learning, gaining valuable skills in remote operation and programming while exploring the world of robotics.]] | ||
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[[File:Beam+motor+wheels.png|frameless|452x452px|link=File:Beam motor wheels.png]] | [[File:Beam+motor+wheels.png|frameless|452x452px|link=File:Beam motor wheels.png|alt=Connecting wheels to axles on both sides of the remote-controlled robot powered by Roboki, a key step in mobile robot design. This process enhances the maneuverability and mobility of the robot, emphasizing hands-on learning in robotics. As beginners explore this DIY project, they gain valuable experience in robot movement control and programming, paving the way for successful remote operation and interaction with the environment.]] | ||
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[[File:Pin connector.png|frameless|452x452px]] | [[File:Pin connector.png|frameless|452x452px|alt=Connecting the pin connector to the opposite side of the motors on the block is an essential step in building a remote-controlled robot using Roboki. This connection enhances the robot's functionality, enabling precise control over its movements. As beginners engage in this DIY project, they learn critical robotics concepts and programming techniques, ultimately improving their skills in mobile robot design and remote operation. This hands-on experience in robotics fosters creativity and innovation in robot control.]] | ||
8. Now, take the caster wheel and by using the block joiner connect it to the pin connector on the block.[[File:Pin connector being attached.png|right|frameless|455x455px]][[File:Caster wheel.png|frameless|484x484px]] | 8. Now, take the caster wheel and by using the block joiner connect it to the pin connector on the block. | ||
[[File:Pin connector being attached.png|right|frameless|455x455px|alt=Attaching the caster wheel to the pin connector using a block joiner is an essential part of constructing a remote-controlled robot with Roboki. This step ensures proper stability and balance, enhancing the robot's ability to maneuver in various environments. As learners engage in this hands-on robotics project, they develop key skills in remote robot operation, programming techniques, and mobile robot design, making it an ideal introduction to the world of DIY robotics.]][[File:Caster wheel.png|frameless|484x484px|alt=Connecting the caster wheel to the pin connector on the block using the block joiner is a crucial step in building a remote-controlled robot powered by Roboki. This assembly enhances the robot's maneuverability and stability, allowing for precise navigation during operation. As participants engage in this hands-on robotics project, they explore essential concepts in mobile robot design, programming, and remote control, fostering skills that are vital for beginners in the field of robotics.]] | |||
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[[File:Beam 15 attachment.png|frameless|450x450px]] | [[File:Beam 15 attachment.png|frameless|450x450px|alt=Attaching two friction pegs to the first and last holes of beam 15 is a crucial step in building a remote-controlled car powered by Roboki. This component helps secure the structure, enhancing the overall stability and performance of the robot. By engaging in this hands-on activity, learners develop skills in robotics design and programming, exploring the intricacies of mobile robot construction and remote robot control. This project exemplifies the innovative world of DIY robotics.]] | ||
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[[File:Beam 15 attached to bot.png|frameless|451x451px]] | [[File:Beam 15 attached to bot.png|frameless|451x451px|alt=Carefully attaching beam 15 to the underside of the block is an essential step in constructing a remote-controlled car with Roboki. This intricate process enhances the stability and mobility of the robot, allowing for better maneuverability during remote robot operation. Precision in this step ensures that the overall structure is secure, crucial for effective navigation in robotics projects. Engage in this hands-on activity to deepen your understanding of mobile robot design and engineering.]] | ||
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[[File:Beam 5 attaching.png|frameless|454x454px]] | [[File:Beam 5 attaching.png|frameless|454x454px|alt=Attaching two friction pegs to the first and last holes of beam 5 is a crucial step in building a remote-controlled car with Roboki. This process enhances the structural integrity and stability of the robot, allowing for smooth movements during remote robot operation. By ensuring proper assembly, you facilitate better navigation and control, making it a vital part of this interactive robotics project. Engage in this hands-on learning experience to improve your skills in mobile robot design.]] | ||
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[[File:Beam 5 being attached to bot.png|frameless|449x449px]] | [[File:Beam 5 being attached to bot.png|frameless|449x449px|alt=Attaching beam 5 on top of beam 15 is a critical step in constructing a remote-controlled car using Roboki. This assembly enhances the stability and design of the robot, allowing for improved maneuverability during remote robot operation. By correctly positioning the beams, you contribute to the overall functionality of the robot, facilitating precise navigation and control. Engage in this interactive robotics project to refine your skills in mobile robot design and enhance your understanding of structural integrity.]] | ||
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. | |||
[[File:Brick attached to beam 5.png|right|frameless|478x478px|alt=Attaching a 1 by 6 brick with holes to two 90-degree pegs on Beam 5 is a crucial step in building a robust remote-controlled car using Roboki. This assembly technique enhances the structure’s stability and supports the motor connection, which is vital for efficient robot operation. By reinforcing the framework, you improve the robot’s maneuverability and interaction with its environment. This hands-on activity in remote robot construction helps beginners learn about robotics and programming while exploring the capabilities of remote-controlled devices.]][[File:1by6 brick attached.png|frameless|535x535px|alt=Connecting a 1 by 6 brick with holes to two 90-degree pegs is essential for enhancing the structure of your remote-controlled car built with Roboki. This step strengthens the assembly, facilitating better control and navigation of the robot. Mounting the brick on Beam 5 ensures a stable base for your robot design, optimizing its performance during remote robot operation. Engage with this interactive robotics project to improve your skills in mobile robot construction and manipulation.]] | |||
14. Next, connect the Roboki on top of the structure as shown in the image. Use the bricks on the underside of the robot to align 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. | |||
[[File:Obstacle avoider bot .png|center|frameless|498x498px|alt=Connecting the Roboki on top of the structure is essential for building a functional remote-controlled robot. Ensure proper alignment using the bricks on the underside of the Roboki with the central beam for stability. This critical step in remote robot construction requires careful support to maintain the structure while applying pressure. The hands-on activity enhances your skills in robot operation and navigation, providing an engaging experience in remote-controlled robotics and programming with Roboki, perfect for beginners.]] | |||
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: Spin Wheel.") | |||
[[File:Motors being attached to the roboki.gif|center|frameless|476x476px|alt=Connecting the motors to the Roboki is a crucial step in building your remote-controlled robot. Ensure that each motor is plugged into the correct ports on the Roboki for optimal functionality and program it accordingly for precise control. This activity emphasizes hands-on learning in robotics and remote robot operation, enhancing your understanding of programming and robot navigation. Perfect for beginners, it offers an interactive experience with remote-controlled robotics and the innovative Roboki platform.]] | |||
=='''2. SOFTWARE'''== | =='''2. SOFTWARE'''== | ||
===2.1 Let's Code it!=== | ===2.1 Let's Code it!=== | ||
Now that the design of our car is ready, we need to programme it using PLODE to make it a remote controlled car. Follow the step by step instruction in the video given below to programme the | Now that the design of our car is ready, we need to programme it using PLODE to make it a remote controlled car. Follow the step by step instruction in the video given below to programme the Remote controlled car. | ||
{{#ev:youtube|https://www.youtube.com/watch?v=BmgQX4Yhx78|||||start=101&end=405&loop=1}} | |||
=='''3. What Next?'''== | =='''3. What Next?'''== | ||
===Challenge !=== | ===Challenge !=== | ||
Create a maze with various obstacles and turns. Write a code that enables a robot to navigate and clear the maze efficiently. | Create a maze with various obstacles and turns. Write a code that enables a robot to navigate and clear the maze efficiently. | ||
Latest revision as of 12:46, 30 September 2024
Building the Remote controlled car Step-by-Step
Description :
Elevate your skills in robot control with this engaging project! Utilize the in-app remote feature to program and direct your robot’s forward, backward, left, and right movements, enhancing its maneuverability and interaction with its environment. This activity emphasizes precise robot movement control and navigation, offering an interactive experience in robotics. Perfect for beginners, it provides hands-on learning in remote robot operation and navigation. Explore the world of remote-controlled robotics and discover how to enhance your robot’s mobility and performance!.
| Contents :
1. HARDWARE
2. SOFTWARE
3. WHAT NEXT?*Challenge! |
Before we begin, take a look at the picture of the bot to get a better understanding of different parts of our Remote controlled car.
1. HARDWARE
Let's make it!
We are going to follow the steps in this tutorial to assemble our gaming car. Look carefully into each of the images and follow the instructions one by one to make our remote controlled car. 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 Remote controlled car.
1.2 How is it made ?
Follow the steps carefully to build the Remote controlled car.
1. Take the two motors and attach the 3 pegs as shown below.
2. Place the 15 by 11 block on a flat surface.
3. Connect the motor to this block as shown in the image
4. Similarly, connect the other motor to this block.
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.
6. Connect wheels to axles on both sides.
7. Take the pin connector and connect it to the opposite side of the motors on the block as shown below.
8. Now, take the caster wheel and by using the block joiner connect it to the pin connector on the block.
9. Take one beam 15 and attach two friction pegs to first and last holes of the beam.
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.
11. Take one beam 5 and attach two friction pegs to the first and last holes of beam 5.
12. Attach the beam 5 on top of the beam 15 as shown in the figure below
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.
14. Next, connect the Roboki on top of the structure as shown in the image. Use the bricks on the underside of the robot to align 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.
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: Spin Wheel.")
2. SOFTWARE
2.1 Let's Code it!
Now that the design of our car is ready, we need to programme it using PLODE to make it a remote controlled car. Follow the step by step instruction in the video given below to programme the Remote controlled car.
3. What Next?
Challenge !
Create a maze with various obstacles and turns. Write a code that enables a robot to navigate and clear the maze efficiently.