Author :
Durand, D.M. ; Sejnowski, Terrence J. ; Vitek, J.L. ; Akay, M. ; Berger, Theodore W. ; Cauwenberghs, Gert ; Courtine, Gregoire ; Denison, Tim ; Lei Ding ; Edgerton, V. Reggie ; Farina, Dario ; Shangkai Gao ; Grill, Warren M. ; Guiraud, David ; Bin He ; Hu
Abstract :
The following topics are discussed: Neural Robotics and Rehabilitation; Suspicious Coincidences in the Brain; Deep Brain Stimulation - Challenges and Opportunities; Translational Neuroengineering; Engineering Memories: A Cognitive Neural Prosthesis for Restoring and Enhancing Memory Function; Brain Dynamics of Human Motor Control: Neuromorphic Modeling and Brain-Machine-Body Interfaces; Neuroprosthetic Technologies to Improve Functional Recovery after Neuromotor Disorders; Translational Research Tools for Investigating Neurological Disease; Neural Control and Modulation; Neuromodulation of the Spinal Circuitry to Regain Motor Function after Spinal Cord Injury; Neural Excitation-Driven Musculo-Skeletal Modeling for Rehabilitation Technologies; Brain-Computer Interface based on Visual Modulation; Recording Evoked Potentials during Deep Brain Stimulation; Restoring Useful and Functional Movements with FES is Still a Big Challenge: From Past to Present Some Big Issues; Bioengineered Artificial Retina; MRI Measured Brain Connectivities and Their Applications; Update on TMR with Pattern Recognition for Control of Powered Prostheses; High Resolution Recording and Data Mining in Epileptic Networks; Challenges in Increasing the Resolution and Device Longevity of a Retinal Prosthesis; Novel Approaches in Neural and Rehabilitation Engineering; Development of Biomimetic Cortical Interfaces for the Restoration of Sensorimotor Function; Neuroprostheses for Movement Restoration; Tensor Product Kernels for Multiscale Neural Decoding and Control; Neurally and Ocularly Informed Graph-Based Models for Searching 3D Environments; Towards Model-Based Control in Neural Engineering; Translating Revolutionary Prosthesis to Practical Prosthesis; Are Our Cellular Models Fundamentally Wrong?; and Electrophysiological Biomarkers of Human Epileptogenic Brain.
Keywords :
bioelectric potentials; biomechanics; biomedical MRI; biomimetics; bone; brain; brain-computer interfaces; cellular biophysics; cognition; data mining; diseases; eye; injuries; medical disorders; medical robotics; muscle; neurophysiology; patient rehabilitation; patient treatment; pattern recognition; prosthetics; somatosensory phenomena; tissue engineering; 3D environment searching; FES; TMR; artificial retina; bioengineering; biomimetic cortical interfaces; brain connectivity measurement; brain dynamics; brain-computer interface; brain-machine-body interfaces; cellular models; cognitive neural prosthesis; data mining; deep brain stimulation; electrophysiological biomarkers; epileptic networks; evoked potential recording; functional movement restoration; high resolution recording; human epileptogenic brain; human motor control; magnetic resonance imaging; memory engineering; memory function enhancement; memory function restoration; multiscale neural control; multiscale neural decoding; neural engineering; neural excitation-driven musculoskeletal modeling; neural rehabilitation; neural robotics; neurally informed graph-based models; neurological disease; neuromodulation; neuromorphic modeling; neuromotor disorders; neuroprostheses; neuroprosthetic technologies; ocularly informed graph-based models; pattern recognition; peripheral nervous system; rehabilitation engineering; rehabilitation technologies; retinal prosthesis; sensorimotor function restoration; spinal circuitry; spinal cord injury; tensor product kernels; translational neuroengineering; visual modulation;
