Projects

CSNE projects. Click on a topic to view full profile.

Acquisition of neural signals

32-channel BCI module utilizing low-power Bluetooth for near field communication
A dynamical systems approach for understanding cortical microcircuits involved in sensorimotor function
Activity - dependent spinal stimulation to improve hand function in human subjects
Artificial Sensory Feedback via Microwire and μECoG Neural Interfaces
BBCI for bridging damaged cortical areas in humans
Combined electrical and chemical therapy for motor recovery after cervical spinal cord injury
Cortical Direct Electrical Stimulation for Somatosensory Feedback
Cortico-striatal circuits: functional connectivity and role in behavior and Parkinsonian conditions
Flexible multielectrode fiber neural probes
Imaging the emergence of cortical plasticity
Implementation of a neural network BBCI in non-human primates
Implementation of neural networks on an FPGA on Neurochip
Modification of monosynaptic cortico-cortical connections using a new IC with stimulus artifact cancelation
Multi-tunable glassy carbon microelectrodes for ECoG system and closed-loop BCI
Neuromodulation of cortical plasticity
Neurotransmitter response to epidural spinal cord stimulation
Reconfigurable Neural Probes for Long-term Neural Recording
Targeted stroke neurorehabilitation using ontogenetic stimulation in NHPs
tDCS for enhancing BBCI-Induced plasticity
Ultra wide-band RFID for low-power wireless signal transmission in BBCI applications
Wireless instrumentation for the Neurochip BBCI

Computational neuroscience/computer science

BBCIs for prosthetic corticospinal connections
Cortico-striatal circuits: functional connectivity and role in behavior and Parkinsonian conditions
Deep neural networks for BBCI application
Graph signal processing: A new opportunity in brain connectivity analysis
Modeling spike-timing dependent plasticity induced by BBCIs
Neural dynamics of fast visuomotor adaptation in electrocorticography
Neuromodulation of cortical plasticity
Privacy and Security by Design in Brain-Computer Interfaces
Spontaneous and learning-related variation in resting state connectivity
Targeted stroke neurorehabilitation using ontogenetic stimulation in NHPs
Using BBCIs for understanding cortical microcircuit dynamics involved in sensorimotor function

Device control

BBCI for bridging damaged cortical areas in humans
Closed-loop DBS for essential tremor
Enhancing artificial sensory feedback while preserving recording quality
Implementation of a neural network BBCI in non-human primates
Model identification and adaptive control for DBS
Volitionally-controlled stimulation for targeted cortical plasticity

Output

Model identification and adaptive control for DBS
Neural modulation by activity-dependent electrical stimulation
Simulation and synergies: Decoding upper-extremity movement from electrocorticography

Sensory feedback

Artificial Sensory Feedback via Microwire and μECoG Neural Interfaces
Cortical Direct Electrical Stimulation for Somatosensory Feedback
Deep neural networks for BBCI application
Haptic Feedback for Closed Loop BCI
Neuromodulation of cortical plasticity
Targeted stroke neurorehabilitation using ontogenetic stimulation in NHPs
Volitionally-controlled stimulation for targeted cortical plasticity

Neuroethics

Developing an ethics toolbox for neural engineering
Ethics by design for BBCIs
Model identification and adaptive control for DBS
Neuroethics at SDSU: Disability perspectives in BCI development
Normative research in neuroethics