Robolink CoDrone - Detailed Review

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Robolink CoDrone - Product Overview

The Robolink CoDrone EDU

The Robolink CoDrone EDU is a highly interactive and educational drone designed specifically for students to learn coding, robotics, and STEM concepts in an engaging and hands-on manner.

Primary Function

The primary function of the CoDrone EDU is to serve as a teaching tool that integrates coding and robotics into the classroom. It allows students to write code that directly controls the drone’s movements, sensors, and other features, making abstract coding concepts more tangible and exciting.

Target Audience

The CoDrone EDU is targeted at students in grades 6-12, as well as educators who are looking to incorporate STEM and coding education into their curriculum. It is particularly useful for classroom settings, after-school programs, and summer camps.

Key Features

Programmability

The CoDrone EDU can be programmed using Python and Blockly, allowing students to learn different coding languages and apply them in real-world scenarios.

Sensors and Hardware

The drone is equipped with a range of sensors, including a 3-axis gyroscope, accelerometer, barometer, two color sensors, two infrared range finders, and an optical flow sensor. These sensors enable various functionalities such as auto-hovering, stabilization, and obstacle detection.

Flight Capabilities

The CoDrone EDU can perform aerial flips, hover, and stabilize itself automatically. It has a continuous flight time of 7-8 minutes on a full charge and a maximum velocity of 2.5 meters per second.

User Interface

The drone comes with a smart controller that includes programmable RGB LEDs and a buzzer, allowing students to customize the drone’s appearance and sounds through their code.

Educational Resources

Robolink provides extensive lesson plans, tutorials, and professional development resources to help teachers integrate the CoDrone EDU into their teaching practices.

Durability and Portability

The drone is compact, weighing only 54.8 grams, and is durable enough to withstand multiple flights and potential crashes, making it suitable for trial-and-error learning.

Overall, the CoDrone EDU is an innovative tool that makes learning about coding, robotics, and STEM engaging and interactive, while also preparing students for future-ready skills in a fun and competitive environment.

Robolink CoDrone - User Interface and Experience

The Robolink CoDrone EDU

The Robolink CoDrone EDU offers a user-friendly and intuitive interface, making it an excellent tool for educational purposes, particularly in teaching coding and robotics.

User Interface

The CoDrone EDU utilizes the Blockly online platform, which is accessible through Google Chrome. Blockly provides a block-based coding interface that is easy to use, especially for beginners. Here’s how it works:

Users can drag and drop blocks from menus on the right side of the screen to the workspace in the middle. This visual approach simplifies the coding process, making it more accessible for students.
The interface includes different coding modes: Junior for beginners, Senior for intermediate coders, and Master for advanced students who can transition to text-based coding in Python.

Ease of Use

The CoDrone EDU is designed with ease of use in mind. Here are some key features that contribute to its user-friendly nature:

Guided Learning: The platform comes with user-friendly apps and online tutorials that guide students through the learning process. This ensures that students can follow along easily and learn at their own pace.
Clear Steps: The Blockly interface provides clear steps for writing code, connecting the drone, and running the program. For example, users need to include specific blocks like takeoff and land commands from the flight commands menu to get the drone flying.
System Requirements: The system requirements are straightforward, ensuring that users know exactly what they need to get started. This includes using Google Chrome version 80 or later, having a MacBook, PC, or Chromebook, and ensuring the device has Bluetooth capabilities.

Overall User Experience

The overall user experience of the CoDrone EDU is engaging and educational:

Multiple Flight Modes: The drone offers various flight modes such as stable hover, acrobatics, and pre-programmed missions, which keep the learning experience interesting and varied.
Sensors and Features: The drone is equipped with several sensors (like 3-axis gyroscope, accelerometer, barometer, color sensors, and infrared range finders) and features like auto-hovering, stabilization, and programmable RGB LEDs. These features allow students to explore different coding challenges and projects.
Feedback and Control: Users can see their program in action by clicking the “Run code” button and can stop the drone if needed using the “Stop” button. This immediate feedback helps students learn and adjust their code effectively.

In summary, the Robolink CoDrone EDU offers a user-friendly interface through Blockly, clear and guided learning processes, and an engaging user experience that makes learning coding and robotics both fun and educational.

Robolink CoDrone - Key Features and Functionality

Overview

The Robolink CoDrone EDU is a versatile and educational drone designed to teach coding, robotics, and drone technology, particularly in educational settings. Here are the main features and how they function:

Size and Durability

The CoDrone EDU is compact and lightweight, measuring 138.5 x 138.5 x 34.8 mm and weighing 54.8 grams. This small size makes it ideal for indoor use and easy to handle for students over 12 years old.

Flight Capabilities

Continuous Flight Time

The drone has a flight time of 7-8 minutes on a single charge, with a 60-minute charge time.

Maximum Velocity

It can fly at a maximum velocity of 2.5 meters per second (9 km/h).

Auto-Hovering and Stabilization

The drone features auto-hovering and stabilization, making it easier for students to control and maintain steady flight.

Sensors and Detection

3-Axis Gyroscope and Accelerometer

These sensors help in stabilizing the drone and maintaining its orientation.

Barometer

For altitude measurement.

Color Sensors

Two color sensors are useful for detecting colors and creating color-based programs.

Infrared Range Finders

Two infrared range finders, located at the front and bottom, help in obstacle detection.

Optical Flow Sensor

This sensor aids in position tracking and stable flight.

Programming and Coding

Coding Languages

The CoDrone EDU supports both Blockly (block-based coding) and Python, making it accessible for beginners and more advanced learners.

Programmable Features

Students can program the drone to perform various tasks such as drawing shapes in the air, doing aerial flips, and controlling LEDs and a buzzer on the drone and controller.

User-Friendly Interface

Smart Controller

The controller is equipped with programmable RGB LEDs and a buzzer, allowing students to create interactive programs.

User-Friendly App and Tutorials

The CoDrone EDU comes with guided learning resources, including an app and online tutorials, to help students learn coding and drone operations step-by-step.

AI and Sensor Integration

While the CoDrone EDU does not explicitly integrate AI in the form of machine learning algorithms, it heavily relies on sensor data to perform its functions. For example:

Optical Flow Sensor

Uses data to track the drone’s position and maintain stable flight.

Infrared Range Finders

Detect obstacles to prevent collisions.

Barometer and Gyroscope

Work together to stabilize the drone and maintain altitude.

These sensors and their data processing enable the drone to perform complex tasks like auto-hovering and obstacle avoidance, which are fundamental to its educational value.

Classroom and Educational Support

Lesson Plans and Resources

Robolink provides extensive lesson plans, tutorials, and professional development resources to help teachers integrate the CoDrone EDU into their classrooms.

Classroom Packs

Available in sets of 10, 20, or 30 kits, these packs include everything needed for a classroom setup, including power packs and extra batteries.

Conclusion

In summary, the CoDrone EDU is a well-rounded educational tool that combines hands-on drone operation with coding and sensor data analysis, making it an engaging and effective platform for learning about drones and programming.

Robolink CoDrone - Performance and Accuracy

The Robolink CoDrone EDU

The Robolink CoDrone EDU is a versatile and educational drone designed specifically for learning and teaching coding, robotics, and artificial intelligence in educational settings. Here’s an evaluation of its performance and accuracy:

Performance

Flight Stability and Automation

The CoDrone EDU features advanced sensors such as a 3-axis gyroscope, accelerometer, and barometer, which enable auto-hovering and stabilization. This ensures stable flight, making it easier for students to focus on programming without worrying about the drone’s stability.

Speed and Range

The drone has a maximum velocity of 2.5 meters per second (9 km/h) and a communication range of 50 meters via 2.4 GHz radio communication. This is sufficient for most classroom and competition environments.

Battery Life

The drone comes with two batteries, each providing 7-8 minutes of flight time, which is adequate for educational sessions. The charge time is 60 minutes, and extra batteries are provided to minimize downtime.

Accuracy

Sensors and Detection

The CoDrone EDU is equipped with multiple sensors, including two infrared range finders (front and bottom), color sensors, and an optical flow sensor. These sensors allow for accurate object detection and environment interaction. For example, the front range sensor can detect objects up to 1000 millimeters (100 cm) away, which is crucial for obstacle avoidance and pre-flight checks.

Programming Accuracy

The drone supports programming in Python, allowing students to write precise code to control the drone’s movements and interactions. The built-in functions, such as `drone.get_front_range()` and `drone.detect_wall(distance)`, provide accurate readings and help in implementing conditional logic for various tasks.

Limitations and Areas for Improvement

Drift and Motor Wear

Over time, especially after multiple crashes, the drone can experience drift due to motor wear. This can be mitigated by trimming the drone using the controller, but in severe cases, motor replacement may be necessary.

Controller Issues

There is a known issue where the controller can get stuck in a “Controller Update” state, which requires a restart and re-pairing with the drone. Updating to the latest firmware can prevent this issue.

Signal Stability

While the 2.4 GHz radio communication is generally stable, ensuring that multiple devices in a classroom do not interfere with each other is important. Proper management of devices can help maintain signal stability.

Engagement and Educational Value

Ease of Use

The CoDrone EDU is designed to be user-friendly, with easy pairing and stable connections that save time in classroom settings. The modular design allows for easy replacement of parts like motors and propellers.

Educational Content

The drone comes with standards-aligned lessons and supports STEAM education, making it an engaging tool for students to learn coding, robotics, and AI. The various sensors and programmable features like RGB LEDs and a buzzer enhance the learning experience.

In summary, the CoDrone EDU performs well in terms of flight stability, sensor accuracy, and educational value. However, it does have some limitations related to motor wear and potential controller issues, which can be managed with proper maintenance and firmware updates.

Robolink CoDrone - Pricing and Plans

The Pricing Structure for the Robolink CoDrone EDU (JROTC Editions)

The pricing structure for the Robolink CoDrone EDU, particularly the JROTC editions, is outlined in several packages designed for educational settings. Here are the key details:

CoDrone EDU (JROTC edition) – Classroom 18 Pack

This package includes 18 CoDrone EDU (JROTC edition) kits, 18 Smart Controllers, 90 rechargeable batteries, 36 dual-battery chargers, replacement propellers, motors, and frame sets.
Price: Starts at $586.68 per month.
Features: Drones, controllers, batteries, chargers, replacement parts, and a 2-year warranty. However, this package does not include professional development (PD).
Recommended Use: Suitable for a class of 15-30 students with a recommended 2:1 student to device ratio.

CoDrone EDU (JROTC edition) – Classroom 12 Pack with PD

This package includes 12 CoDrone EDU (JROTC edition) kits, 12 Smart Controllers, 60 rechargeable batteries, 24 dual-battery chargers, replacement propellers, motors, and frame sets.
Price: Not explicitly stated, but it includes a more comprehensive set of accessories and professional development.
Features: In addition to the hardware, this package includes a 2-hour “Getting Started” virtual professional development course for up to 12 educators. This course covers unboxing, safety rules, piloting, programming, and classroom setup.
Recommended Use: Ideal for a class of 5-15 students with a recommended 2:1 student to device ratio.

Free Resources

Robolink offers free curriculum and lessons available through their Basecamp platform. This includes guided learning materials and tutorials to help educators and students get started with the CoDrone EDU.

Additional Considerations

For both packages, AA batteries are not included.
The minimum system requirements for using Blockly need to be checked if you plan to use this coding platform.

These packages are designed to cater to different classroom sizes and needs, ensuring that educators have the necessary tools and support to integrate the CoDrone EDU into their teaching.

Robolink CoDrone - Integration and Compatibility

The Robolink CoDrone EDU

The CoDrone EDU is designed to be highly integrable and compatible with various tools and platforms, making it a versatile educational tool.

Programming Languages and Environments

The CoDrone EDU supports multiple programming languages, including Arduino, Python, and block-based coding languages. This versatility allows students to program the drone using different methodologies, depending on their skill level and preferences. For example, students can use Arduino IDE or PlatformIO for more advanced coding, while block-based coding languages like Blockly provide a more intuitive and visual approach for beginners.

Device Compatibility

The CoDrone EDU is compatible with a range of devices:

Windows and macOS: Students can code and control the drone using these operating systems. For Python coding, macOS and Windows devices are supported.
Chromebooks: The drone can be updated and controlled via a web-based interface compatible with Chrome browsers on Chromebooks.
However, it is not compatible with iPads or tablets, which is an important consideration for educational settings that may rely heavily on these devices.

Software and Tools

Web Updater: Robolink provides a web-based updater that allows users to check for and install firmware updates directly from their browser, ensuring the drone remains up-to-date and functions optimally.
Apps and Online Tutorials: The CoDrone EDU comes with user-friendly apps and online tutorials that guide students through the learning process, making it easier for them to get started with coding and drone operations.

Educational Integration

The CoDrone EDU is integrated into educational curricula through various resources:

Standards-Aligned Lessons: The drone is part of lesson plans that align with educational standards, ensuring that the learning experience is both engaging and relevant to the curriculum.
Competitions and Projects: The drone is approved for the national Aerial Drone Competition and is used in various educational projects that focus on STEAM skills, such as city planning and agriculture.

Hardware and Sensors

The CoDrone EDU is equipped with multiple sensors and features that enhance its educational value:

7 Sensors: These include sensors for altitude, obstacles, and color detection, which can be used in various coding projects and missions.
Replaceable and Upgradable Components: The drone’s components can be easily replaced or upgraded, making it a durable and long-lasting educational tool.

Conclusion

In summary, the Robolink CoDrone EDU is highly compatible with various programming languages, devices, and educational tools, making it a valuable resource for teaching coding, robotics, and STEAM skills in educational settings.

Robolink CoDrone - Customer Support and Resources

Customer Support

For technical questions or help, Robolink offers several avenues of support:

You can visit their help page at help.robolink.com for general assistance and troubleshooting tips.
For specific documentation and library functions, users can refer to docs.robolink.com.
Direct contact is also available through email at admin@robolink.com or by calling 1(858) 876-5123.

Learning Resources

Robolink provides extensive learning resources to help users get started and advance their skills:

The “Getting Started” course is highly recommended, which includes an introductory video and detailed guides on setting up and using the CoDrone EDU.
Users can access free curriculum and lessons through RoboLink’s Basecamp, which includes standards-aligned lessons and STEAM & industry-aligned skills.
The user manual, available both physically and digitally, covers everything from basic setup to advanced coding and troubleshooting.

Additional Tools and Guides

The CoDrone EDU comes with a Quickstart Guide, and users can also find detailed specifications and features of the drone and its components on the Robolink website.
For those participating in competitions, there are resources available for the Aerial Drone Competition, including information on how to update the drone and controller’s firmware.

Professional Development

Robolink also offers professional development opportunities for educators to ensure they are well-equipped to integrate the CoDrone EDU into their teaching methods effectively.

By leveraging these resources, users can ensure they have the support and information needed to fully utilize the CoDrone EDU and achieve their learning goals.

Robolink CoDrone - Pros and Cons

Advantages of the Robolink CoDrone EDU

The Robolink CoDrone EDU is packed with several features that make it an excellent tool for educational settings:

Safety and Durability

The drone is extremely safe, weighing only 2 ounces (57 g) and equipped with beefy guards that prevent propellers from making direct contact in case of a crash. It also has a failsafe to shut off motors upon detecting a strong crash or when upside down.

Stability and Connectivity

It offers much more stable signal stability, especially in a classroom setting with multiple drones, using a radio signal instead of Bluetooth. This ensures reliable connections and minimizes the need for re-pairing.

Ease of Use

Pairing the drone to the controller is a one-time process; once paired, they stay connected whenever both are powered on, saving time in the classroom.

Extended Flight Time

The CoDrone EDU has a flight time of 8 minutes per battery, with two batteries included, providing ample time for students to practice and learn.

Advanced Sensors

The drone is equipped with 7 sensors, including color sensors, obstacle detection sensors, and height sensors, making coding more engaging and interactive. These sensors allow for various STEM activities such as graphing data, navigating mazes, and more.

Programmable Features

Students can program the drone using Blockly or Python, allowing for a range of coding experiences from basic to advanced. The drone can also generate sounds and display LED cues, enhancing the learning experience.

Educator Support

Robolink provides extensive educator-focused content, including standards-aligned lesson plans and activities, which help teachers integrate the drone into their curriculum effectively.

Competitiveness and Engagement

The CoDrone EDU is approved for the national Aerial Drone Competition, making it a great tool for engaging students in competitive and industry-aligned activities.

Disadvantages of the Robolink CoDrone EDU

While the CoDrone EDU is highly praised, there are a few considerations:

Cost

The CoDrone EDU, especially in classroom packs, can be more expensive compared to other educational drones, which might be a barrier for some schools or individuals.

Limited Modular Customization

Although the drone’s parts are modular enough for necessary repairs (like swapping motors and propellers), they are not as highly modular as some previous models. This can limit some customization options but helps maintain flight stability.

Professional Development Costs

While the classroom packs include many accessories, the professional development course is not included in the basic package and must be purchased separately.

System Requirements

Users need to ensure their systems meet the minimum requirements for using the Blockly coding environment, which could be a minor hurdle for some users.

Overall, the CoDrone EDU is a well-rounded educational tool that offers significant benefits for teaching coding, engineering, and STEM subjects, despite a few minor drawbacks related to cost and system requirements.

Robolink CoDrone - Comparison with Competitors

When considering the Robolink CoDrone EDU in the context of educational drones and AI-driven education tools, several key features and comparisons with competitors are noteworthy.

Unique Features of CoDrone EDU

Comprehensive Curriculum and Support: The CoDrone EDU stands out with its high-quality curriculum developed in-house by engineers and instructional designers. This curriculum aligns with ISTE and CSTA standards, providing structured lesson plans and challenges that are specifically designed for classroom use.
Programming Capabilities: The drone supports programming in both Blockly and Python, making it versatile for students of different skill levels. It also features a range of sensors, including RGB color sensors, time-of-flight sensors, an optical flow position sensor, barometer, 3-axis accelerometer, and 3-axis gyroscope, which enable advanced autonomous programming.
Safety and Durability: The CoDrone EDU is built with a durable and safe frame, includes emergency landing features, and has a payload capacity of less than 5 grams. It also operates on a 2.4 GHz radio frequency, ensuring reliable communication within a 50-meter range.
Additional Resources: The package includes a Smart Controller, multiple batteries, a dual-charger, extra propellers, and other accessories. Additionally, Robolink offers virtual professional development (PD) courses to help teachers integrate the drone into their lessons effectively.

Potential Alternatives

DJI Tello

Camera Capability: One of the main differences between the CoDrone EDU and the DJI Tello is the Tello’s built-in camera, which is particularly useful for professional drone pilots. However, the Tello has been reported to be discontinued, making availability limited.
Curriculum and Support: While the Tello is popular, it lacks the comprehensive curriculum and support that the CoDrone EDU provides. The Tello does not come with the same level of educational resources and structured lesson plans as the CoDrone EDU.

Other Educational Drones

Other educational drones may offer different features such as cameras or different types of sensors, but they often lack the integrated curriculum and educational support that the CoDrone EDU provides. For example, some drones might focus more on aerial photography or general drone piloting skills rather than programming and autonomous challenges.

AI-Driven Education Tools Comparison

While the CoDrone EDU is primarily a drone-focused educational tool, it can be compared to other AI-driven education tools in terms of its educational impact and interactive learning capabilities.

Interactive Learning: Unlike tools like Smart Sparrow, Coursera, or Querium, which focus on adaptive e-learning and personalized learning experiences through AI, the CoDrone EDU provides hands-on, interactive learning through drone programming and autonomous challenges.
Real-Time Feedback: While tools like GradeSlam and TutorMe offer real-time feedback through AI-powered tutoring, the CoDrone EDU provides immediate feedback through its sensors and programming outcomes, helping students learn through experimentation and debugging.

In summary, the CoDrone EDU is a unique offering in the educational drone market due to its comprehensive curriculum, extensive sensor suite, and strong support resources. While other drones like the DJI Tello offer different features, the CoDrone EDU’s focus on programming, autonomous challenges, and educational support makes it a standout choice for STEM education.

Robolink CoDrone - Frequently Asked Questions

Frequently Asked Questions about the CoDrone EDU

What is the CoDrone EDU and what is it used for?

The CoDrone EDU is an educational drone designed for classroom use, particularly for students aged 12 and up. It is intended to teach coding, engineering, and STEM skills through hands-on learning experiences. Students can program the drone using Blockly or Python, and it comes equipped with various sensors and features for autonomous programming and obstacle detection.

What programming languages can be used with the CoDrone EDU?

The CoDrone EDU can be programmed using two languages: Blockly and Python. This allows students to start with block-based coding and progress to text-based coding as their skills improve.

What sensors and features does the CoDrone EDU have?

The CoDrone EDU is equipped with several sensors, including 2 RGB color sensors, a time-of-flight front range sensor, a time-of-flight bottom range sensor, an optical flow position sensor, a barometer, a 3-axis accelerometer, a 3-axis gyroscope, and a temperature sensor. It also features programmable LEDs and a buzzer, and can perform functions like auto-hovering, stabilization, emergency landing, hovering, flips, and return to home.

How long does the CoDrone EDU battery last and how long does it take to charge?

The CoDrone EDU has a continuous flight time of 7-8 minutes on a full charge, and the battery takes approximately 60 minutes to charge.

What is included in the CoDrone EDU package?

The standard package includes the CoDrone EDU drone, a Smart Controller, two drone batteries, a battery dual-charger, a USB-A to Micro-USB data cable, eight color cards, four extra propellers, a propeller remover, a screwdriver, spare controller bolts, and labels for the drone and controller. Additional packages, such as the Classroom 12 Pack or 18 Pack, include more drones, batteries, chargers, and other accessories, as well as professional development courses in some cases.

Is the CoDrone EDU suitable for indoor use only?

Yes, the CoDrone EDU is designed for indoor use only. This ensures safety and optimal performance in a controlled environment.

What is the recommended student-to-device ratio for the CoDrone EDU?

Robolink recommends a 2:1 student-to-device ratio, although a 1:1 ratio can be used for smaller groups of fewer than 10 students.

Does the CoDrone EDU require any additional hardware or software to operate?

The CoDrone EDU can be used with Chromebook, macOS, or Windows devices. No additional hardware is required beyond what is included in the package, but users should ensure their devices meet the minimum system requirements for using Blockly or Python.

What kind of professional development is available for educators using the CoDrone EDU?

Some packages, such as the Classroom 12 Pack with PD, include a 2-hour “Getting Started” virtual professional development course. This course covers unboxing, features, safe piloting, and getting started with programming.

Are there any specific editions of the CoDrone EDU, and what are their differences?

There is a JROTC edition of the CoDrone EDU, which is designed to meet national security standards and requirements. This edition has a white drone body and white Smart Controller, but the performance and features remain the same as the standard CoDrone EDU.

Robolink CoDrone - Conclusion and Recommendation

The Robolink CoDrone EDU

The Robolink CoDrone EDU is a highly versatile and educational drone designed specifically for classroom use, particularly for students aged 12 and above. Here’s a comprehensive assessment of its features and benefits:

Key Features

The CoDrone EDU is equipped with 7 sensors, including RGB color sensors, time-of-flight front and bottom range sensors, an optical flow position sensor, a barometer, a 3-axis accelerometer, a 3-axis gyroscope, and a temperature sensor. These sensors enable various programming challenges and autonomous flight capabilities.
It features programmable LEDs and buzzers, allowing students to create interactive and engaging projects.
The drone is capable of emergency landing, hovering, flips, and return-to-home functions, making it both fun and educational.
It uses a 2.4 GHz radio frequency communication protocol, ensuring stable signal stability even in a classroom setting with multiple drones.

Educational Value

The CoDrone EDU supports two programming languages: Blockly and Python. This makes it accessible for students with varying levels of coding experience, from beginners to more advanced learners.
The drone is compatible with Chromebook, macOS, and Windows devices, making it versatile for different educational environments.
It comes with a Smart Controller that includes an LCD screen, which helps in visualizing sensor data and other important information.

Classroom Integration

The CoDrone EDU is designed to integrate seamlessly into classroom settings. It is part of various educational packages, such as the 18-Pack for classrooms, which includes multiple drones, smart controllers, batteries, chargers, and replacement parts. This package also offers a “Getting Started” professional development course to help teachers get comfortable with the technology.
The drone is approved for the national Aerial Drone Competition, making it a great tool for competitive learning and engagement.

Benefits

Engagement and Retention: The CoDrone EDU is highly engaging, allowing students to see their code come to life in a physical and interactive way. This can significantly enhance student engagement and retention in STEM subjects.
Hands-On Learning: The drone provides hands-on experience with coding, robotics, and engineering, which is crucial for developing practical skills in these areas.
Safety and Durability: It has a durable and safe frame, ensuring that it can withstand classroom use and potential mishaps.

Recommendation

The Robolink CoDrone EDU is an excellent choice for educational institutions looking to integrate coding, robotics, and engineering into their curriculum. It is particularly beneficial for students in grades 6-12 who are interested in STEM subjects. The combination of its advanced sensors, programmable features, and stable communication protocol makes it an ideal tool for both learning and competitive drone activities.

For educators, the CoDrone EDU offers a comprehensive package that includes professional development support, ensuring they are well-equipped to integrate the drone into their teaching practices. Overall, the CoDrone EDU is a valuable addition to any STEM education program, providing a fun, interactive, and educational experience for students.