Fundamentals of Motion and Control for Bioinspired Robots
1,5 credits, course, bachelor's level, R0008E
Spring 2027
Robotics is entering an era inspired by nature itself. From flying drones that mimic birds to walking machines modeled on insects, bioinspired robotics is transforming the way we design and control intelligent systems.
This course provides an overview of bio-inspired robotics, from a modeling, control, and application perspective. The aim is to study the motion capability of the robotic systems and based upon students’ interest - detailed study of a specific robotic system such as walking, or flying robots, etc.
Participants will gain hands-on experience through simulation-based exercises using MATLAB or Python, learning how to analyze motion dynamics and design simple control systems for bioinspired robots.
Participants will gain hands-on experience through simulation-based exercises using MATLAB or Python, learning how to analyze motion dynamics and design simple control systems for bioinspired robots.
1,5 credits, course, bachelor's level, R0008E
Spring 2027
Robotics is entering an era inspired by nature itself. From flying drones that mimic birds to walking machines modeled on insects, bioinspired robotics is transforming the way we design and control intelligent systems.
This course provides an overview of bio-inspired robotics, from a modeling, control, and application perspective. The aim is to study the motion capability of the robotic systems and based upon students’ interest - detailed study of a specific robotic system such as walking, or flying robots, etc.
Participants will gain hands-on experience through simulation-based exercises using MATLAB or Python, learning how to analyze motion dynamics and design simple control systems for bioinspired robots.
Participants will gain hands-on experience through simulation-based exercises using MATLAB or Python, learning how to analyze motion dynamics and design simple control systems for bioinspired robots.
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