NeuroQ project - 26/07/2023 Quantum sensors for exoskeletons: can quantum physics beat paralysis? Could people suddenly be able to move again decades after being paralysed? State-of-the-art quantum sensors integrated in exoskeletons could make this possible. Technology being developed as part of the BMBF-funded NeuroQ beacon project by researchers from organisations including the Fraunhofer IAF, the Charité in Berlin and the University of Stuttgart might achieve even more: besides facilitating movement, it could also help cure paralysis.https://www.gesundheitsindustrie-bw.de/en/article/news/quantum-sensors-exoskeletons-can-quantum-physics-beat-paralysis
Press release - 24/01/2023 Controlling neural exoskeletons more precisely with diamond sensors Brain-computer interfaces are able to restore some mobility to paralyzed people by controlling exoskeletons. However, more complex control signals cannot yet be read from the head surface because conventional sensors are not sensitive enough. A collaboration of Fraunhofer IAF, Charité – Universitätsmedizin Berlin, University of Stuttgart and other industrial partners has taken up this challenge.https://www.gesundheitsindustrie-bw.de/en/article/press-release/mit-diamant-sensoren-neurale-exoskelette-praeziser-steuern
Press release - 05/12/2022 New findings on neuronal activities in the sensorimotor cortex An interdisciplinary research team at the University of Freiburg has found important clues about the functioning of the sensorimotor cortex. The new findings on neuronal activities in this brain area could be helpful for the further development and use of so-called neuroprostheses. These have an interface with the nervous system and are intended to help compensate for neuronal dysfunctions.https://www.gesundheitsindustrie-bw.de/en/article/press-release/new-findings-neuronal-activities-sensorimotor-cortex
Article - 21/02/2019 Using neuromedical artificial intelligence responsibly Brain-computer interfaces are the latest developments in the neurotechnology field. They are used to record brain activity, which is then decoded with artificial intelligence techniques and converted into control signals for robots or computers. While this brings hope to severely paralysed people, it also implies risks due to the interest of companies like Google and Facebook in this type of data.https://www.gesundheitsindustrie-bw.de/en/article/news/using-neuromedical-artificial-intelligence-responsibly