Picture for Hugh T. Blair

Hugh T. Blair

FPGA-Based In-Vivo Calcium Image Decoding for Closed-Loop Feedback Applications

Add code
Dec 09, 2022
Figure 1 for FPGA-Based In-Vivo Calcium Image Decoding for Closed-Loop Feedback Applications
Figure 2 for FPGA-Based In-Vivo Calcium Image Decoding for Closed-Loop Feedback Applications
Figure 3 for FPGA-Based In-Vivo Calcium Image Decoding for Closed-Loop Feedback Applications
Figure 4 for FPGA-Based In-Vivo Calcium Image Decoding for Closed-Loop Feedback Applications
Viaarxiv icon

An uncertainty principle for neural coding: Conjugate representations of position and velocity are mapped onto firing rates and co-firing rates of neural spike trains

Add code
Dec 23, 2019
Figure 1 for An uncertainty principle for neural coding: Conjugate representations of position and velocity are mapped onto firing rates and co-firing rates of neural spike trains
Figure 2 for An uncertainty principle for neural coding: Conjugate representations of position and velocity are mapped onto firing rates and co-firing rates of neural spike trains
Figure 3 for An uncertainty principle for neural coding: Conjugate representations of position and velocity are mapped onto firing rates and co-firing rates of neural spike trains
Figure 4 for An uncertainty principle for neural coding: Conjugate representations of position and velocity are mapped onto firing rates and co-firing rates of neural spike trains
Viaarxiv icon