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PUBLICATIONS
Papers
Barth, K., Sun, J., Chiang, C-H., Qiao, S., Wang, C., Rahimpour, S., Trumpis, M., Duraivel, S., Dubey, A., Wingel, K., Voinas, A., Ferrentino, B., Doyle, W., Southwell, D., Haglund, M. M., Vestal, M., Harward, S., Solzbacher, F., Devore, S., Devinsky, O., Friedman, D., Pesaran, B., Sinha, S. S., Cogan, G. B. Blanco, J., Viventi, J. (Submitted). Microscale analysis of high-frequency oscillations in epilepsy.
Duraivel, S., Rahimpour, S., Chiang, C-H., Trumpis, M., Wang, C., Barth, K., Lad, S. P., Friedman, A. H., Southwell, D. G., Sinha, S. R., Viventi, J., Cogan, G. B. (Submitted). Accurate speech decoding requires high-resolution neural interfaces, Biorxiv, DOI: 10.1101/2022.05.19.492723.
Sun, J., Barth, K., Qiao, S., Chiang, C-H., Wang, C., Rahimpour S., Trumpis, M., Duraivel, S., Dubey, A., Wingel, Rachinskiy, I., Voinas, S., Ferrentino, B., Southwell, D., Haglund, M. M., Friedman, A. H., Lad, S., Doyle, W., Solzbacher, F., Cogan. G. B., Sinha, S. R., Devore, S., Devinsky, O., Friedman, D., Pesaran, B., Viventi, J. Intraoperative microseizure detection using a high-density micro-electrocorticography electrode array (2022). Brain Communications, 4(3).
Chiang, C-H., Wang, C., Barth, K., Rahimpour, S., Duraivel, S., Rachinskiy, I., Dubey, A., Wingel, K. E., Wong, M., Witham, N. S., Odell, T. G., Woods, V., Bent, B., Doyle, W., Friedman, D., Bihler, E., Reiche, C. F., Southwell, D., Haglund, M. M., Friedman, A. H., Lad S., Devore, S., Devinsky, O., Solzbacher, F., Pesaran, B., Cogan, G. B., & Viventi, J. (2021). Flexible, high-resolution thin-film electrodes for human and animal neural research. Journal of Neural Engineering, 18, 045009.
Trumpis, M., Chiang, C-H., Orsborn, A. L, Bent, B., Li, J., Rogers, J. A., Pesaran, B., Cogan, G. B., & Viventi, J. (2021). Sufficient sampling for kriging prediction of cortical potential in rat, monkey, and human µECoG. Journal of Neural Engineering, 18(3), 036011.
Book Chapters
Poeppel, D., Cogan G. B., Davidesco, I., & Flinker, A. (2018). Speech Perception: a perspective from lateralisation, motorisation, and oscillation. Oxford Handbook of Neurolinguistics: Oxford, UK.
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