Sökning: "brain computer interface"
Visar resultat 6 - 10 av 17 avhandlingar innehållade orden brain computer interface.
6. Large-scale I/O Models for Traditional and Emerging HPC Workloads on Next-Generation HPC Storage Systems
Sammanfattning : The ability to create value from large-scale data is now an essential part of research and driving technological development everywhere from everyday technology to life-saving medical applications. In almost all scientific fields that require handling large-scale data, such as weather forecast, physics simulation, and computational biology, supercomputers (HPC systems) have emerged as an essential tool for implementing and solving problems. LÄS MER
7. Using Virtual Reality for Participatory Design and Brain Injury Rehabilitation
Sammanfattning : In this thesis, the usability of Virtual Reality (VR) has been investigated and developed within two applications: participatory design of workplaces and brain injury rehabilitation. In the first application, VR is used in combination with full scale modelling, drama and democratic meetings in an Envisionment Workshop. LÄS MER
8. The Physical Axon : Modeling, Simulation and Electrode Evaluation
Sammanfattning : Electrodes are used in medicine for detection of biological signals and for stimulating tissue, e.g. in deep brain stimulation (DBS). For both applications, an understanding of the functioning of the electrode, and its interface and interaction with the target tissue involved is necessary. LÄS MER
9. On Calibration Algorithms for Real-Time Brain-Computer Interfaces
Sammanfattning : A Brain-Computer Interface (BCI) is a system that, in real-time, translates the user's brain activity into commands that can be used to control applications, such as moving a cursor on the screen. The translation is made possible by machine learning methods and other algorithms. LÄS MER
10. A Helping Hand : On Innovations for Rehabilitation and Assistive Technology
Sammanfattning : This thesis focuses on assistive and rehabilitation technology for restoring the function of the hand. It presents three different approaches to assistive technology: one in the form of an orthosis, one in the form of a brain-computer interface combined with functional electrical stimulation and finally one totally aiming at rehabilitating the nervous system by restoring brain function using the concept of neuroplasticity. LÄS MER