Unlocking the secrets of phase transitions in quantum hardware Research EPFL EPFL researchers have achieved a remarkable result: capturing and studying phase changes in quantum hardware, which hold promise for next-generation technologies like quantum computing and ultra-sensitive sensors. Robotics and spinal stimulation restore movement in paralysis Research EPFL Scientists at .Neurorestore (EPFL/CHUV/UNIL) have developed an approach that combines rehabilitation robotics with spinal cord stimulation to restore movement in people with spinal cord injuries. The technology enhances rehabilitation and enables activities like cycling and walking outdoors. Unraveling the brain's hidden motor modules Research EPFL Scientists have identified previously unknown neural modules in the brain that control movement and adapt during skill learning. Their findings challenge long-held ideas about how the brain organizes movement. A new cryptography framework for secure genomic studies Research EPFL Developed from EPFL research, in collaboration with MIT and Yale, the combination of secure computation and distributed algorithms opens a new era for data collaborations in medical research. Quantum interference in molecule-surface collisions Research EPFL Scientists at EPFL have revealed how quantum interference and symmetry dictate molecular behavior in collisions with gold surfaces, offering new insights into molecular interactions. The findings can have important implications for chemistry and materials science. Morphing robot turns challenging terrain to its advantage Research EPFL A bioinspired robot developed at EPFL can change shape to alter its own physical properties in response to its environment, resulting in a robust and efficient autonomous vehicle as well as a fresh approach to robotic locomotion. Previous 1 2 3 4 5 6 7 8... Next Page 3 of 100
