Think Different,
Be Different
Ignite your robotics journey in our DIY Bipedal Robotics webinar and step into a world of endless possibilities.
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Outcomes
You can expect
Fundamentals of Robotics
Understanding the basic principles of robotics, including mechanics, electronics, and programming.
Design and Construction
Learning how to design and assemble the components of a biped robot using materials like hobby servos and 3D-printed parts.
Programming and Control
Gaining knowledge on how to program the robot’s microcontroller, likely an Arduino, to manage movements and balance.
Sensor Integration
Exploring how to incorporate sensors such as gyroscopes to detect and respond to changes in balance and orientation.
Motion Planning
Developing algorithms for stable walking patterns and other movements.
Real-world Applications
Discussing the potential applications of biped humanoid robots in various fields.
Community and Collaboration
Engaging with a community of fellow robotics enthusiasts for support and collaboration.
Your Roadmap to
bi-ped workshop
Introduction and Basics
- Day 1: Introduction to Robotics and Humanoids
- Overview of robotics
- Introduction to humanoid robots
- Safety briefing and tool introduction
- Day 2: Introduction to Arduino and ESP32
- Basics of microcontrollers
- Introduction to Arduino IDE and programming
- Introduction to ESP32
- Day 3: Basics of Servo Motors
- Understanding servo motors and their operation
- Controlling servo motors with Arduino
- Day 4: Designing the Bipedal Structure
- Basics of bipedal locomotion
- Designing the skeleton using CAD software
- Day 5: 3D Printing and Assembling Parts
- 3D printing basics
- Assembling printed parts
- Day 6: Initial Coding and Testing
- Writing basic movement code
- Testing servo motor movements
Advanced Building and Programming
- Day 7: Advanced Arduino Programming
- Writing advanced functions
- Debugging and code optimization
- Day 8: Integrating Sensors
- Introduction to sensors (gyroscope, accelerometer)
- Sensor integration with Arduino
- Day 9: ESP32 Remote Control Introduction
- Basics of remote control communication
- Programming ESP32 for remote operation
- Day 10: Building the Remote Controller
- Designing and assembling the remote controller
- Programming the controller for basic commands
- Day 11: Advanced Locomotion and Stability
- Programming walking gaits
- Balancing algorithms
- Day 12: Testing and Troubleshooting
- Comprehensive testing of the humanoid
- Troubleshooting common issues
Final Assembly and Demonstrations
- Day 13: Integration and Fine-Tuning
- Integrating all systems (sensors, motors, controllers)
- Fine-tuning movements and responses
- Day 14: Autonomous Movement Programming
- Programming the humanoid for autonomous navigation
- Day 15: Customization and Personal Projects
- Customizing the humanoid
- Starting personal projects
- Day 16: Project Development
- Further development of personal projects
- Day 17: Rehearsal for Final Presentation
- Preparing for the final presentation
- Practice runs and performance tweaking
- Day 18: Final Presentation and Showcase
- Presentation of individual projects
- Showcase and demonstration to peers and evaluators
how does this
program work
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WHO IS THIS PROGRAM FOR?
High School Students Interested in Robotics
The program caters to high school students who have a keen interest in robotics.
College Aspirants
The program is suitable for college-bound students who want to build a strong foundation in robotics.
STEM Enthusiasts
Students passionate about STEM (Science, Technology, Engineering, and Mathematics) will find this program engaging.It covers various aspects of robotics, including programming, Arduino, sensors, and robot control.
Creatives and Problem Solvers
The program encourages creativity and problem-solving abilities. Participants learn how to design and construct robots, which fosters critical thinking and practical skills.
FAQ
Comprehending robotics fundamentals involves grasping mechanics, electronics, and programming. It encompasses understanding the interplay of these disciplines to design, build, and operate robots effectively, incorporating both physical components and computational logic.
Understanding robotics basics: mechanics, electronics, programming. Design and assemble biped robots using hobby servos, 3D-printed parts. Program Arduino for control, manage balance. Integrate gyroscopes for balance detection. Develop motion algorithms. Explore humanoid robot applications. Engage in community collaboration.
Access Eduquis for courses on robotics fundamentals, covering mechanics, electronics, and programming. Learn design, assembly, and control of biped robots with hobby servos and 3D-printed parts. Gain insights on Arduino programming, sensor integration, motion planning, real-world applications, and community collaboration.
Eduquis pricing structure caters to a wide audience. By staying vigilant for special offers, learners can maximize their value and access quality education on robotics, programming, and other subjects