Skip to main content
Graph
Search
fr
en
Login
Search
All
Categories
Concepts
Courses
Lectures
MOOCs
People
Practice
Publications
Startups
Units
Show all results for
Home
Lecture
Soft Robotic Aerial Manipulation: Hydraulically Amplified Electrostatic Gripper System
Graph Chatbot
Related lectures (31)
Previous
Page 2 of 4
Next
Microgel Fabrication: Microfluidic Device
Explores creating microgels with microfluidics, involving design, testing, and production of uniform microgels.
Extra Robotic Limbs
Explores human-robot augmentation through wearable robotics systems, focusing on extra limbs' embodiment and sensory feedback challenges.
Active Materials Dynamics: A Mathematical Framework
Delves into the theory of material activation, proposing a unified mathematical framework to model how multiple stimuli can produce changes at the macroscopic level.
Computational Robot Design: Differentiable Simulation and Control
Explores optimization-driven design, differentiable simulation, control strategies, and the evolution of virtual creatures and soft machines.
Soft Interfaces and Mechanics of Impact
Explores soft interfaces, mechanics of impact, and the role of air in compliant impact events.
Compliant Control for Robots: Impedance and Variable Stiffness
Explores compliant control for robots through impedance and variable stiffness, enabling safe and adaptive interactions with the environment.
Computational Robot Design: Morphological Intelligence and Simulation
Explores computational robot design, morphological intelligence, simulation, and innovative contact dynamics solutions.
Robot Learning and Control
Covers learning and adaptive control for robots, focusing on real-time reactivity and path planning using dynamical systems.
Continuum Mechanics: EPFL Research Labs and Applications
Delves into open research questions in continuum mechanics at EPFL, covering topics from geometry and mechanics to fluid-structure interaction.
Continuum Mechanics at EPFL: Research and Applications
Explores EPFL's research in continuum mechanics, covering topics like plasticity, fracture, and fluid-structure interaction.
