Roboki - Session 6: Difference between revisions
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== '''Building the Entry guard bot Step-by-Step''' == | == '''Building the Entry guard bot Step-by-Step''' == | ||
[[File:Entry guard bot.jpg|thumb|Entry guard bot made using proximity sensors and powered by Roboki.]] | [[File:Entry guard bot.jpg|thumb|Entry guard bot made using proximity sensors and powered by Roboki.|alt=Entry guard bot made using proximity sensors and powered by Roboki, showcasing a practical application of sensor-based systems in this STEM robotics project.]] | ||
======'''Description :'''====== | ======'''Description :'''====== | ||
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|}Before we begin, take a look at the picture of the bot to get a better understanding of the different parts of this entry guard bot. | |}Before we begin, take a look at the picture of the bot to get a better understanding of the different parts of this entry guard bot. | ||
=='''1.HARDWARE'''== | =='''1.HARDWARE'''== | ||
[[File:EntryGuard Bot in Action.gif|thumb|476x476px|EntyGuard bot made using Roboki detecting people in and people out.]] | [[File:EntryGuard Bot in Action.gif|thumb|476x476px|EntyGuard bot made using Roboki detecting people in and people out.|alt=EntryGuard bot made using Roboki, detecting people in and people out with proximity sensors, demonstrating an effective traffic monitoring system in this hands-on STEM robotic project.]] | ||
===Let's make it!=== | ===Let's make it!=== | ||
We are going to follow the steps in this tutorial to assemble our | We are going to follow the steps in this tutorial to assemble our bot. Look carefully into each of the images and follow the instructions one by one to make this entry guard bot. The colour of the blocks and parts used in the construction might differ from original, So carefully follow the instruction given below. | ||
===<big>1.1 What do we need ?</big>=== | ===<big>1.1 What do we need ?</big>=== | ||
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[[File:Materials required for Entry Guard bot.jpg|frameless|593x593px]] | [[File:Materials required for Entry Guard bot.jpg|frameless|593x593px|alt=Materials required to build the Entry Guard bot, displayed with names and quantities, highlighting essential components for this educational robotics project and automated traffic monitoring system.]] | ||
===<big>1.2 How is it made ?</big>=== | ===<big>1.2 How is it made ?</big>=== | ||
====Follow the steps carefully to build the | ====Follow the steps carefully to build the Entry Guard Robot==== | ||
1. Place the 15 by 11 block on a flat surface. | 1. Place the 15 by 11 block on a flat surface. | ||
[[File:Beam 15 on surface.jpg|link=https://wiki.yudurobotics.com/File:Beam%2015%20on%20surface.jpg|frameless|497x497px|alt=15 by 11 Technic block placed on a flat surface, serving as a foundational component in the Entry Guard bot project, illustrating essential steps in this hands-on STEM robotics activity.]] | |||
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[[File:11 by 7 block on 15 by 11 block.jpg|right|frameless|428x428px]] | [[File:11 by 7 block on 15 by 11 block.jpg|right|frameless|428x428px|alt=Two 90-degree pegs attached to the 11 by 7 block, which is then secured to the 15 by 11 block, illustrating key assembly steps for the Entry Guard bot, a hands-on project in sensor-based systems and robotics for beginners]] | ||
[[File:Pegs attached to block.jpg|frameless|625x625px]] | [[File:Pegs attached to block.jpg|frameless|625x625px|alt=Two 90-degree pegs attached to the 11 by 7 block, then connected to the 15 by 11 block, demonstrating assembly techniques for the Entry Guard bot in this engaging STEM robotic project.]] | ||
3. Next, On this block attach this brick. And for that we take two pegs and attach it onto the brick and the brick is then fixed on the 11 by 7 block. | 3. Next, On this block attach this brick. And for that we take two pegs and attach it onto the brick and the brick is then fixed on the 11 by 7 block. | ||
[[File:Brick attached to block.jpg|right|frameless|524x524px|alt=Next, attach this brick onto the block using two pegs, fixing it onto the 11 by 7 block, demonstrating important assembly techniques for the Entry Guard bot in this educational robotics project that emphasizes hands-on learning and traffic management.]] | |||
[[File:Pegs on brick.jpg|frameless|530x530px|alt=Next, attach the brick onto the block using two pegs, securing it to the 11 by 7 block, which is essential for building the Entry Guard bot, a practical STEM robotics project focusing on sensor applications and automated traffic monitoring.]] | |||
4. Bring the Roboki and fix it onto the brick. Ensure the alignment is proper, and press down firmly to make sure the Roboki is well-attached. | 4. Bring the Roboki and fix it onto the brick. Ensure the alignment is proper, and press down firmly to make sure the Roboki is well-attached. | ||
[[File:Roboki attached to the bot 1.jpg|right|frameless|530x530px|alt=Bring the Roboki microcontroller and firmly attach it onto the brick, ensuring proper alignment to enhance the Entry Guard bot, a practical project in STEM robotics that emphasizes sensor applications, automated traffic monitoring, and hands-on learning for robotics enthusiasts.]] | |||
[[File:Roboki attached to the bot.jpg|frameless|530x530px|alt=Bring the Roboki microcontroller and securely fix it onto the brick, ensuring proper alignment, to enhance the functionality of the Entry Guard bot in this hands-on robotics project focused on traffic monitoring and sensor-based systems for beginners]] | |||
5. Attach one proximity sensor to '''Port A''' of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing backwards. | 5. Attach one proximity sensor to '''Port A''' of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing backwards. | ||
[[File:Proximity sensor 1 attached to roboki.jpg|frameless|504x504px]] | [[File:Proximity sensor 1 attached to Roboki.jpg|right|frameless|594x594px|alt=Attach one proximity sensor to Port A of the Roboki microcontroller using angled port connectors, ensuring a secure connection while facing backwards. This integration is essential for the Entry Guard bot, enabling real-time traffic detection and automated traffic management in this engaging STEM robotics project, ideal for robotic and electronic project enthusiasts.]] | ||
[[File:Proximity sensor 1 attached to roboki.jpg|frameless|504x504px|alt=Attach one proximity sensor to Port A of the Roboki microcontroller using angled port connectors, ensuring a secure connection. This setup is crucial for the Entry Guard bot, allowing for effective traffic monitoring and automated sensor applications in this STEM robotics project focused on hands-on learning and robotics for beginners.]] | |||
6.Attach another proximity sensor to '''Port B''' of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing forward. | 6.Attach another proximity sensor to '''Port B''' of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing forward. | ||
[[File:Proximity sensor 2 attached to roboki.jpg|right|frameless|559x559px|alt=Attach another proximity sensor to Port B of the Roboki microcontroller using angled port connectors, ensuring a secure connection while facing forward. This critical integration enhances the Entry Guard bot's functionality, enabling automated traffic monitoring and real-time detection in this engaging STEM robotics project, ideal for robotic and electronic project enthusiasts focused on sensor applications.]] | |||
[[File:Proximity sensor 2 attached to Roboki.jpg|frameless|554x554px|alt=Attach another proximity sensor to Port B of the Roboki microcontroller using angled port connectors, ensuring a secure connection while facing forward. This setup is vital for the Entry Guard bot, facilitating effective real-time traffic flow detection and automated management in this hands-on STEM robotics project for beginners and robotic enthusiasts.]] | |||
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=='''2. SOFTWARE'''== | =='''2. SOFTWARE'''== | ||
===2.1 Let's Code it !=== | ===2.1 Let's Code it !=== | ||
Now that our Bot is ready, we need to programme it using Plode to make it .Follow the step by step instruction in the video given below to programme the | Now that our Bot is ready, we need to programme it using Plode to make it .Follow the step by step instruction in the video given below to programme the entry guard bot. | ||
{{#ev:youtube|https://www.youtube.com/watch?v=H7aCzDvDvGY|||||start=60&end=274&loop=1}} | {{#ev:youtube|https://www.youtube.com/watch?v=H7aCzDvDvGY|||||start=60&end=274&loop=1}} | ||
==3. What Next?== | ==3. What Next?== | ||
===Challenge!=== | ===Challenge!=== | ||
Develop a reverse parking assistance system using proximity sensors to visually display distance on a screen and activate a visual alarm when the vehicle aproaches obstacles, enhancing parking precision and safety. | Develop a reverse parking assistance system using proximity sensors to visually display distance on a screen and activate a visual alarm when the vehicle aproaches obstacles, enhancing parking precision and safety. | ||
Latest revision as of 12:04, 30 September 2024
Building the Entry guard bot Step-by-Step
Description :
Create an efficient traffic monitoring system with this engaging project! Set up proximity sensors at both the entrance and exit to automatically manage and display traffic flow. When the entrance sensor detects movement, it shows the message "People In," and when the exit sensor is triggered, it displays "People Out." This setup provides real-time traffic flow detection and automated display messages, offering a practical introduction to sensor-based systems and traffic management. Ideal for hands-on learning in sensor applications and traffic monitoring.
| Contents :
1. HARDWARE
2. SOFTWARE
3. WHAT NEXT?
|
Before we begin, take a look at the picture of the bot to get a better understanding of the different parts of this entry guard bot.
1.HARDWARE
Let's make it!
We are going to follow the steps in this tutorial to assemble our bot. Look carefully into each of the images and follow the instructions one by one to make this entry guard 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 Entry guard bot.
1.2 How is it made ?
Follow the steps carefully to build the Entry Guard Robot
1. Place the 15 by 11 block on a flat surface.
2. Take two 90 degree pegs. Attach them onto 11 by 7 block like shown below and then attach it to the 15 by 11 block as seen below.
3. Next, On this block attach this brick. And for that we take two pegs and attach it onto the brick and the brick is then fixed on the 11 by 7 block.
4. Bring the Roboki and fix it onto the brick. Ensure the alignment is proper, and press down firmly to make sure the Roboki is well-attached.
5. Attach one proximity sensor to Port A of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing backwards.
6.Attach another proximity sensor to Port B of Roboki using the angled port connectors.Ensure the connection is secure and remember the port to which the proximity sensor is connected so that the bot can be programmed accordingly. The sensor is attached facing forward.
By now, our bot's construction is complete, with all components securely in place. All that's left is the final step — programming the Roboki to bring our entry guard to life.
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 the step by step instruction in the video given below to programme the entry guard bot.
3. What Next?
Challenge!
Develop a reverse parking assistance system using proximity sensors to visually display distance on a screen and activate a visual alarm when the vehicle aproaches obstacles, enhancing parking precision and safety.