Enabling Educators to bring innovation to the classroom
Equip your students with cutting-edge skills in robotics, coding, and sustainable agriculture
Specifically designed for high school students, this modular intelligent robotics platform fuses forward-thinking innovation with agricultural technology—empowering the next generation of leaders to shape the future of farming.
Learn more about our mission >
Hands on Learning
Develop critical thinking, skill building and collaboration. Students learn how to build the AMIGA from the ground up and operate it in the field.
STEM Engagement
Inspire students with real world robotics and agricultural challenges, connecting classroom concepts to real world applications.
Career Readiness
Prepare students for emerging careers in agricultural technology, robotics and engineering.
Curriculum Modules
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Module 1: Foundations of Agricultural Robotics
→ Discover how robotics innovations can dramatically improve food production and sustainability worldwide.
→ Develop fundamental engineering skills that pave the way for high-paying careers in technology and beyond.
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Module 2: Mastering AMIGA’s Electrical Architecture
→ Wire and power up the AMIGA using real electrical schematics, solidifying your understanding of circuitry.
→ Practice essential safety protocols and troubleshooting methods to handle real-world engineering challenges.
→ Gain invaluable electrical engineering insights applicable across countless technical fields.
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Module 3: Hardware Assembly & Integration
→ Assemble and configure motors, sensors, and structural components to form a fully operational chassis.
→ Learn precision installation techniques that sharpen problem-solving and attention to detail.
→ Customize hardware setups to meet specific project goals, fostering adaptability and innovation.
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Module 4: Field Operations & Implement Handling
→ Drive and maneuver your AMIGA in real agricultural settings while adhering to crucial safety protocols.
→ Attach and operate farm implements—such as seed planters and tillers—using the robot’s systems.
→ Witness how your hands-on assembly skills translate directly to solving real-world farming tasks.
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Module 5: Precision Navigation with GPS & CRTN
→ Calibrate GPS receivers with RTK technology for centimeter-level accuracy in robotic navigation.
→ Set up CRTN accounts and configure systems used by drones and autonomous machines globally.
→ Elevate your AMIGA’s capabilities toward efficient, highly precise field operations.
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Module 6: Inside the AMIGA Brain: Software & Apps
→ Connect your robot to WiFi and explore key software tools like Autoplot and camera control.
→ Manage data in real-time and experiment with open-source applications for versatile robot operations.
→ Strengthen your digital skill set, complementing the hands-on hardware knowledge you’ve gained.
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Module 7: Collaborative Development with GitHub & Streamlit
→ Collaborate on code-based projects using GitHub’s powerful version control system.
→ Build and deploy autonomous pathways for AMIGA using Streamlit’s intuitive app framework.
→ Experience modern development workflows that fuse hardware, software, and creativity.
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Module 8: Capstone Challenge: Real-World Robotics Deployment
→ Design and deploy a custom AMIGA solution that tackles a real agricultural challenge.
→ Refine both hardware and software to test and prove your robot’s effectiveness in the field.
→ Showcase teamwork, innovation, and technical expertise in this final, impactful project.
Hear from several of our students who have worked and used the AMIGA jointly with the Curriculum.
Student Testimonials
“What I enjoyed most while actually building the AMIGA. I have never built a robot before so that was definitely the most interesting part for me”
-Kurihani
“I want to get involved in engineering and robotics in general. I would say I have defenitely learned more in the fields working with the AMIGA ”
