Latest revision as of 16:03, 30 September 2024

Building the HoopMaster Game bot Step-by-Step

Description :

HoopMaster gaming bot made with proximity sensor and motors powered by Roboki.

Build a fun and interactive robotics hoop game powered by Roboki! This DIY project guides you in creating a rotating basket game using a motor and proximity sensor. As the basket moves, the challenge intensifies—detecting your hand's position, the basket rotates faster the closer you get, making it a thrilling goal-scoring robot game. Perfect for kids and beginners, This innovative STEM project fosters robotics skills development through hands-on learning and creative play with a Roboki.

This activity is ideal for young engineers over the age of 8 who are eager to dive into microcontroller projects and fun games.

We are going to follow the steps in this tutorial to assemble our gaming bot.

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!

HoopMaster gaming bot in action.

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

1. HARDWARE

Let's make it!

We are going to follow the steps in this tutorial to assemble our gaming bot. Look carefully into each of the images and follow the instructions one by one to make this Hoop master gaming 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 HoopMaster gaming bot.

1.2 How is it made ?

Follow the steps carefully to build the Hoop-master gaming Robot.

1. Take the motor and attach two the 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. Once the setup is ready, carefully attach axle 5 to the motor. This creates an extension for mounting the basket to the motor.

5. Take a full bush and place it onto the axle.

6. Take an 11 by 5 block and slide it onto the axle.

7. Now, place a full bush on top of the block and onto the axle to secure it properly.

8. Attach a pin connector to this block, as shown in the image.

9. Take a Beam 5 and attach two friction pegs to the second and fourth holes of the beam. Then, connect the beam to the pin connector.

10. Take the 1 by 6 brick with holes and connect two pegs to the first and last hole of the brick and then attach it onto the 15 by 11 block. This brick is to which the Roboki is to be attached.

11. Now let us attach the Roboki onto the structure. For this, we will use the brick attached to the robot to secure it in place. Fix Roboki on to the brick by applying pressure.

12. Next we need to connect the proximity sensor to Roboki using the angled port connector as shown below.

13. Now we must connect the motor to the Roboki. Remember the port to which motor is connected and programme it accordingly. (Refer to “Roboki Session 4")

Now we must connect the motor to the Roboki, ensuring proper programming to enhance the functionality of the goal-scoring robot in this exciting STEM project.

2. SOFTWARE

2.1 Let's Code it!

Now that the design of our Bot is ready, we need to programme it using PLODE to make it a gaming robot. Follow the step by step instruction in the video given below to programme the HoopMaster gaming bot.

3. What Next?

Challenge !

Create different projects using Roboki and explore their applications in the real world.

@@ Line 1: / Line 1: @@
 ='''Building the HoopMaster Game bot  Step-by-Step'''=
 ===Description :===
-[[File:HoopMaster gaming bot.jpg|thumb|329x329px|HoopMaster gaming bot made with proximity sensor and motors powered by Roboki.]]Build a fun and interactive robotics hoop game powered by Roboki! This DIY project guides you in creating a rotating basket game using a motor and proximity sensor. As the basket moves, the challenge intensifies—detecting your hand's position, the basket rotates faster the closer you get, making it a thrilling goal-scoring robot game. Perfect for kids and beginners, This innovative STEM project fosters robotics skills development through hands-on learning and creative play with a Roboki.
+[[File:HoopMaster gaming bot.jpg|thumb|329x329px|HoopMaster gaming bot made with proximity sensor and motors powered by Roboki.|alt=Discover the HoopMaster gaming bot, an innovative interactive robot designed using a proximity sensor and motors powered by Roboki. This engaging robotics project showcases the principles of object detection and autonomous robotics, perfect for young engineers eager to explore STEM learning and hands-on robotics skills.]]Build a fun and interactive robotics hoop game powered by Roboki! This DIY project guides you in creating a rotating basket game using a motor and proximity sensor. As the basket moves, the challenge intensifies—detecting your hand's position, the basket rotates faster the closer you get, making it a thrilling goal-scoring robot game. Perfect for kids and beginners, This innovative STEM project fosters robotics skills development through hands-on learning and creative play with a Roboki.
 This activity is ideal for young engineers over the age of 8 who are eager to dive into microcontroller projects and fun games.
@@ Line 17: / Line 17: @@
 *2.1 Let's Code it !
 '''3. WHAT NEXT?'''*Challenge!
-|}[[File:Hoopmaster gaming bot in action.gif|thumb|300x300px|HoopMaster gaming bot in action.]]
+|}[[File:Hoopmaster gaming bot in action.gif|thumb|300x300px|HoopMaster gaming bot in action.|alt=Experience the HoopMaster gaming bot in action, an exciting interactive robot that showcases object detection and autonomous robotics principles. Powered by Roboki, this dynamic STEM project combines motors and proximity sensors, making it a perfect robotics activity for young engineers interested in robotics skills development and innovative gameplay.]]
@@ Line 28: / Line 28: @@
 Given below are the materials required to build the HoopMaster gaming bot.
-[[File:Materials required for the build.jpg|frameless|769x769px]]
+[[File:Materials required for the build.jpg|frameless|769x769px|alt=Explore the essential materials needed to build the HoopMaster gaming bot, a fun and interactive project powered by Roboki. This DIY robotics project utilizes motors, proximity sensors, and various robotic components, making it an ideal activity for young engineers interested in STEM learning, robotics skills development, and creative play.]]
 ==='''1.2 How is it made ?'''===
@@ Line 37: / Line 37: @@
-[[File:Motor and pegs.jpg|frameless|360x360px]]
+[[File:Motor and pegs.jpg|frameless|360x360px|alt=As part of this DIY robotics project, take the motor and attach two pegs, showcasing the assembly of the interactive robot game, which will enhance STEM learning.]]
@@ Line 43: / Line 43: @@
-[[File:Beam 15 placed on surface.jpg|frameless|383x383px]]
+[[File:Beam 15 placed on surface.jpg|frameless|383x383px|alt=Place the 15 by 11 block on a flat surface, creating the foundation for the rotating basket game in this engaging robotics project designed for young engineers.]]
@@ Line 49: / Line 49: @@
-[[File:Motor+beam1.jpg|frameless|379x379px|link=File:Motor beam1.jpg]]
+[[File:Motor+beam1.jpg|frameless|379x379px|link=File:Motor beam1.jpg|alt=Connect the motor to the block, demonstrating the crucial setup step for the goal-scoring robot, perfect for hands-on learning in robotics for kids.]]
@@ Line 55: / Line 55: @@
-[[File:Axle5+motor.jpg|frameless|382x382px|link=File:Axle5 motor.jpg]]
+[[File:Axle5+motor.jpg|frameless|382x382px|link=File:Axle5 motor.jpg|alt=Once the setup is ready, carefully attach axle 5 to the motor, creating an extension for mounting the basket in this fun robotics activity focused on interactive play.]]
@@ Line 61: / Line 61: @@
-[[File:Full bush attached to axle 5.jpg|frameless|385x385px]]
+[[File:Full bush attached to axle 5.jpg|frameless|385x385px|alt=Take a full bush and place it onto the axle to secure the components in the DIY hoop game bot, promoting robotics skills development and creative play.]]
@@ Line 67: / Line 67: @@
-[[File:Block added to axle.jpg|frameless|383x383px]]
+[[File:Block added to axle.jpg|frameless|383x383px|alt=Take an 11 by 5 block and slide it onto the axle, preparing for the next stage of this educational robotics project that fosters hands-on learning.]]
@@ Line 73: / Line 73: @@
-[[File:Bush to be added on axle+block.jpg|frameless|382x382px|link=File:Bush_to_be_added_on_axle block.jpg]]
+[[File:Bush to be added on axle+block.jpg|frameless|382x382px|link=File:Bush_to_be_added_on_axle block.jpg|alt=Now, place a full bush on top of the block and onto the axle to secure it properly, ensuring the stability of the motorized game in this STEM robotics activity.]]
@@ Line 79: / Line 79: @@
-[[File:Attaching pin connector.jpg|frameless|391x391px]]
+[[File:Attaching pin connector.jpg|frameless|391x391px|alt=Attach a pin connector to this block, showcasing the assembly process for the interactive robot game designed to challenge kids in a fun way.]]
@@ Line 86: / Line 86: @@
-[[File:Beam 5 attached to pin connector.jpg|frameless|394x394px]]
+[[File:Beam 5 attached to pin connector.jpg|frameless|394x394px|alt=Take a Beam 5 and attach two friction pegs to the second and fourth holes of the beam, connecting it to the pin connector for this engaging robotics project.]]
@@ Line 93: / Line 93: @@
-[[File:1by6 brick+bot.jpg|frameless|394x394px|link=File:1by6_brick bot.jpg]]
+[[File:1by6 brick+bot.jpg|frameless|394x394px|link=File:1by6_brick bot.jpg|alt=Take the 1 by 6 brick with holes and connect two pegs to the first and last hole, then attach it onto the 15 by 11 block for the hoop game bot assembly.]]
@@ Line 100: / Line 100: @@
-[[File:Roboki attached.jpg|frameless|395x395px]]
+[[File:Roboki attached.jpg|frameless|395x395px|alt=Now let us attach the Roboki onto the structure, using the brick to secure it in place, vital for the functioning of this fun robotics game.]]
@@ Line 106: / Line 106: @@
-[[File:Proximity sensor1.jpg|frameless|425x425px]]
+[[File:Proximity sensor1.jpg|frameless|425x425px|alt=Next, connect the proximity sensor to Roboki using the angled port connector, an essential step in creating an intelligent robot that interacts with its environment.]]
+. Now we must connect the motor to the Roboki. Remember the port to which motor is connected and programme it accordingly. (Refer to “Roboki Session 4")
+[[File:Motors are connected to roboki.gif|center|frameless|644x644px|alt=Now we must connect the motor to the Roboki, ensuring proper programming to enhance the functionality of the goal-scoring robot in this exciting STEM project.]]
-. Now we must connect the motor to the Roboki. Remember the port to which motor is connected and programme it accordingly. (Refer to “Roboki Session 4")[[File:Motors are connected to roboki.gif|center|frameless|644x644px]]
 =='''2. SOFTWARE'''==
 ===2.1 Let's Code it!===
 Now that the design of our Bot is ready, we need to programme it using PLODE to make it a gaming robot. Follow the step by step instruction in the video given below to programme the HoopMaster gaming bot.
+{{#ev:youtube|https://www.youtube.com/watch?v=WEXjZeV8-FU|||||start=144&end=270&loop=1}}
 =='''3. What Next?'''==
 ===Challenge !===
 Create different projects using Roboki and explore their applications in the real world.