Roboki: Difference between revisions
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Range Sensors: Detect the distance between the sensor and an object. Useful for obstacle avoidance and distance measurement. | Range Sensors: Detect the distance between the sensor and an object. Useful for obstacle avoidance and distance measurement. | ||
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== Plug and Play Ports == | == Plug and Play Ports == | ||
Roboki features plug and play ports that allow you to easily connect external sensors and modules. This expandability makes it possible to enhance your projects with additional functionalities. | Roboki features plug and play ports that allow you to easily connect external sensors and modules. This expandability makes it possible to enhance your projects with additional functionalities. | ||
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Note: for detailed explanation on how to use the above methods , visit [[(***insert Plode wiki link***)]] | Note: for detailed explanation on how to use the above methods , visit [[(***insert Plode wiki link***)]] | ||
== '''Integration of AI-cam with Roboki''': == | |||
The integration of AI Cam with Roboki significantly expands its functionality by introducing advanced visual recognition, voice interaction, and heightened environmental awareness. Connecting the AI Cam through the plug-and-play ports and managing it via the PLODE app enables Roboki to perceive its surroundings in a smarter way. With AI Cam, Roboki can recognize objects, respond to voice commands, and detect movements, transforming it into an intelligent, interactive robot. This upgrade enhances Roboki's ability to engage dynamically, making it a more responsive and immersive learning tool. | |||
[[(***insert Ai-Cam wiki link***) (**Insert Ai-cam picture**)]] | |||
= '''Building with Roboki''' = | = '''Building with Roboki''' = | ||
=== Building Blocks Compatibility === | === ● Building Blocks Compatibility === | ||
Roboki is compatible with building blocks, allowing you to combine your kit with existing building blocks to create more intricate and customized designs. | Roboki is compatible with building blocks, allowing you to combine your kit with existing building blocks to create more intricate and customized designs. | ||
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Note: Check the Youtube Playlist for other projects (***insert playlist link***) | Note: Check the Youtube Playlist for other projects (***insert playlist link***) | ||
=== Upgradeable Add-ons === | === ● Upgradeable Add-ons === | ||
Expand your Roboki kit with additional modules and accessories available separately. These add-ons can provide new functionalities and enhance your existing projects. | Expand your Roboki kit with additional modules and accessories available separately. These add-ons can provide new functionalities and enhance your existing projects. | ||
Revision as of 12:00, 6 September 2024
Roboki-t1
Roboki is a fully customizable and codable robotic kit designed specifically for kids by Yudurobotics. Roboki is not just a toy; it's an educational tool that combines fun and learning, allowing children to explore the exciting world of robotics and coding. With Roboki, kids can build, code, and play with a variety of projects, enhancing their problem-solving skills, creativity, and technical knowledge.
Getting started
A Look Inside the Box:
Roboki includes a set of components in the box that can be used to enhance its functionality. The package includes:
| Component | Picture of components | Quantity |
| Roboki | 
|
1 |
| Range sensor | 2 | |
| Angle port connectors | 2 | |
| Motors | 2 | |
| 15 x 11 block | 1 | |
| 11 x 7 block | 1 | |
| Beam 05 | 2 | |
| Beam 15 | 1 | |
| Wheel Rim | 2 | |
| Wheel tyre | 2 | |
| Caster Wheel | 1 | |
| Axle 5 | 2 | |
| Pegs | - | |
| 90 Degree Pegs | ||
| Pin connector | 1 | |
| 1 x 6 Brick | 1 | |
| Beam / Block joiner | 1 | |
| Rubber bands | 
|
6 |
Roboki Anatomy:
Roboki is designed with simplicity and functionality in mind, offering an intuitive layout for young learners to explore. Each part of the kit plays a specific role, from powering the robot to controlling its movements and sensors. Below is an overview of the key components and their functionalities:
| Part | Functionality |
| Type - C port | Used to power up Roboki |
| Port A | GPIO port |
| Port B | GPIO port |
| SW1 | Switch 01 |
| SW2 | Switch 02 |
| M1 | Dc motor port 1 |
| M2 | Dc motor port 2 |
| S1 | Servo motor port 1 (Internal Input) |
| S2 | Servo motor port 1 (Internal Input) |
| Reset | Change modes / erase programs / Reset the device |
| On / Off | On / Off switch |
| Power port | Used to connect an external battery |
| RGB Leds (eyes) | Output |
Specifications:
The technical specifications of Roboki ensure that it meets the needs of young learners while providing enough functionality for advanced robotics projects. From its precise motor controls to its versatile GPIO ports, Roboki is built to offer flexibility, power, and connectivity for various creative applications.Let's take a detailed look at the specifications of Roboki :
| Specification | Details |
| Dimensions | Length: _ mm, Width: _ mm, Height: _ mm |
| Weight | ___ grams |
| Power Input | Type-C port, 5V |
| Battery | External battery, 7.4V Li-Po |
| Motor Ports | 2 (M1, M2) |
| Servo Ports | 2 (S1, S2) |
| GPIO Ports | 2 (Port A, Port B) |
| Switches | 2 (SW1, SW2) |
| LEDs | RGB LEDs (Eyes) |
| Reset Button | Yes |
| On/Off Switch | Yes |
| Connectivity | Bluetooth (via PLODE app) |
| Processor | ___ MHz |
| Memory | ___ KB RAM, ___ MB Flash |
Hardware:
Roboki's hardware is designed to support a variety of robotics projects with precision and flexibility. Its durable components, including motors and sensors, ensure smooth operation and enable interaction with the environment, making it perfect for both simple and complex builds.
Motors
Roboki includes two high-quality motors that are essential for moving parts of your robotic projects. These motors provide precise control and high torque, making them suitable for various applications such as driving wheels.
Specifications:
| Specification | Details |
| Motor Type | DC Brushed Motor |
| Voltage Rating | ___ V |
| Stall Torque | ___ Nm (Newton-meters) |
| No-Load Speed. | ___ RPM (Revolutions Per Minute) |
| Load Speed | ___RPM |
| Current Rating | ___A - __A |
| Dimensions | Length: __mm
Diameter: __mm |
| Weight | __ grams |
RGB LEDs (Eyes)
Roboki is equipped with customizable RGB LEDs that can be programmed to display different colors and patterns. These LEDs can be used to add visual effects to your projects, making them more interactive and engaging.
Example Uses:
- Status Indicator: Program the RGB LEDs to change color based on the status of your robot (e.g., green for active, red for error).
- Replicate Emotions: Program the RGB LEDS to change color based of the emotion you want to portray (e.g., blue for sad, red for angry)
Sensors
Roboki comes with two Range sensors that allow your projects to interact with their environment. These sensors can detect distances that can be used to trigger different actions.
Range Sensors: Detect the distance between the sensor and an object. Useful for obstacle avoidance and distance measurement.
Example Uses: Obstacle Avoidance Robot: Use range sensors to create a robot that can navigate around obstacles without hitting them.
Plug and Play Ports
Roboki features plug and play ports that allow you to easily connect external sensors and modules. This expandability makes it possible to enhance your projects with additional functionalities.
Simply plug the connectors of your external sensors or modules into one of the ports on Roboki . The system will automatically recognize and integrate them, allowing you to immediately start using the new components.
Software control:
Roboki can be coded and controlled using many methods. All these methods are using the PLODE app.
What is the PLODE app?
Plode app and website transform coding and robotics into an exciting and accessible adventure for everyone, whether you’re a curious beginner or a tech enthusiast. With PLODE, you can effortlessly control and program an array of fantastic robots and kits like PeeCee, Roboki, PeeCee v0.1, Zing, Crawl-e, and Klaw.
Methods :
Roboki can be programmed and controlled through various coding methods, offering flexibility for different skill levels. Whether you are a beginner exploring robotics for the first time or an advanced user looking for in-depth control, the PLODE app provides several ways to code your projects. Each method is tailored to different learning stages and preferences.
- Hexa Block Programming: A unique and intuitive block-based coding system tailored for beginners.
- Block Programming: Standard block-based coding similar to Scratch, ideal for younger users and beginners.
- Flowchart Programming: A visual programming method that uses flowcharts to design logic.
- Python Programming: For more advanced users, Python allows for detailed and sophisticated programming.
- C Programming: Provides low-level control for advanced users familiar with C language.
Note: for detailed explanation on how to use the above methods , visit (***insert Plode wiki link***)
Integration of AI-cam with Roboki:
The integration of AI Cam with Roboki significantly expands its functionality by introducing advanced visual recognition, voice interaction, and heightened environmental awareness. Connecting the AI Cam through the plug-and-play ports and managing it via the PLODE app enables Roboki to perceive its surroundings in a smarter way. With AI Cam, Roboki can recognize objects, respond to voice commands, and detect movements, transforming it into an intelligent, interactive robot. This upgrade enhances Roboki's ability to engage dynamically, making it a more responsive and immersive learning tool.
(***insert Ai-Cam wiki link***) (**Insert Ai-cam picture**)
Building with Roboki
● Building Blocks Compatibility
Roboki is compatible with building blocks, allowing you to combine your kit with existing building blocks to create more intricate and customized designs.
Project Examples
Basic Projects
Start with simple projects to get familiar with the components and functionality of Roboki.
Turning on the LEDs in the Roboki using the internal switches.
Tutorial Link: (***insert video link***)
Turning on the LEDs in the Roboki using the data value from range sensor.
Tutorial Link: (***insert video link***)
Note: Check the Youtube Playlist for other projects (***insert playlist link***)
Advanced Projects
Once you're comfortable with the basics, move on to more complex projects.
Building an Autonomous Rover using Roboki along with other included components.
Tutorial Link: (***insert video link***)
Building a Robo Car that can be controlled remotely through the PLODE app.
Tutorial Link: (***insert video link***)
Note: Check the Youtube Playlist for other projects (***insert playlist link***)
● Upgradeable Add-ons
Expand your Roboki kit with additional modules and accessories available separately. These add-ons can provide new functionalities and enhance your existing projects.