Robotic Monkey
Introduction to Robotic Monkeys
- What are robotic monkeys?
- Applications of robotic monkeys (entertainment, research, education)
- Biomimicry in robotics: Learning from nature
Relevant Technology
- Introduction to basic robotics principles (kinematics, dynamics, control)
- Types of robotic monkeys (simple, complex)
- Overview of microcontrollers used in robotics (Arduino, Raspberry Pi) – Include relevant keywords for popular platforms
Components and Parts
- Mechanical components (servos, linkages, materials) – Use “servo motors” instead of just “servos” for better SEO
- Sensors (proximity, light, touch) – Include specific sensor types commonly used in robotics
- Power systems (batteries, motors)
Sensors
- Different types of sensors and their functionalities (e.g., ultrasonic for obstacle detection)
- Interfacing sensors with microcontrollers
- Sensor data acquisition and processing
Servo Motors
- Types of servo motors and their selection criteria for robotic monkeys
- Control of servo motors using microcontrollers (PWM) – Include “Pulse Width Modulation” for technical SEO
- Movement programming for the robotic monkey
Hardware Design
- Introduction to Computer Aided Design (CAD) for mechanical design (optional)
- Designing the robotic monkey’s structure (focusing on simplicity and functionality)
- 3D printing considerations for robotic parts (if applicable)
Software Design Details
- Introduction to a beginner-friendly programming language (e.g., Arduino C++)
- Basic programming concepts (variables, loops, functions)
- Writing code for controlling the robotic monkey’s movements and sensors
Integration and Testing
- Assembling the hardware components
- Uploading code to the microcontroller
- Testing and troubleshooting the robotic monkey’s movement and functionality
Summary
- Course recap and key takeaways
- Exploring advanced features and functionalities for robotic monkeys
- Resources for further learning
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