Progress Towards Decoding Visual Imagery via fNIRS
Adamic, Michel, Avelino, Wellington, Brandenberger, Anna, Chiang, Bryan, Davis, Hunter, Fay, Stephen, Gregory, Andrew, Gupta, Aayush, Hotter, Raphael, Jiang, Grace, Leng, Fiona, Polcyn, Stephen, Ribeiro, Thomas, Scotti, Paul, Wang, Michelle, Xiong, Marley, Xu, Jonathan
–arXiv.org Artificial Intelligence
We demonstrate the possibility of reconstructing images from fNIRS brain activity and start building a prototype to match the required specs. By training an image reconstruction model on downsampled fMRI data, we discovered that cm-scale spatial resolution is sufficient for image generation. We obtained 71% retrieval accuracy with 1-cm resolution, compared to 93% on the full-resolution fMRI, and 20% with 2-cm resolution. With simulations and high-density tomography, we found that time-domain fNIRS can achieve 1-cm resolution, compared to 2-cm resolution for continuous-wave fNIRS. Lastly, we share designs for a prototype time-domain fNIRS device, consisting of a laser driver, a single photon detector, and a time-to-digital converter system.
arXiv.org Artificial Intelligence
Jun-22-2024
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