PUBLICATIONS | Cogan Lab

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PUBLICATIONS

Papers

Duraivel, S., Rahimpour, S., Chiang, C-H., Trumpis, M., Wang, C., Barth, K., Harward, S. C., Lad, S. P., Friedman, A. H., Southwell, D. G., Sinha, S. R., Viventi, J., Cogan, G. B. High-resolution neural recordings improve the accuracy of speech decoding (2023). Nature Communications, DOI: 10.1038/s41467-023-42555-1.

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. Flexible, high-resolution cortical arrays with large coverage capture microscale high-frequency oscillations in patients with epilepsy (2023). Epilepsia 64(7).

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. Sufficient sampling for kriging prediction of cortical potential in rat, monkey, and human µECoG. (2021). Journal of Neural Engineering, 18(3), 036011.

Cogan, G. B. Translating the brain. (2020). Nature Neuroscience. 23(4), 471-472.

X. Teng, Cogan, G. B., & Poeppel, D. Speech fine structure contains critical temporal cues to support speech segmentation. (2019). NeuroImage. 202, 116152.

Cogan, G. B., Iyer, A., Melloni, L., Thesen, T., Friedman, D., Doyle, W., Devinsky, O., and Pesaran, B. Manipulating stored phonological input during verbal working memory. (2017). Nature Neuroscience. 20, 279–286.

Cogan, G. B. I see what you are saying. (2016). eLife. 5: e17693

Cogan, G. B., Thesen, T., Carlson, C., Doyle, W., Devinsky, O., and Pesaran, B. Sensory-motor transformations for speech occur bilaterally. (2014). Nature. 507, 94–98.

Zion Golumbic, E. M., Cogan, G.B., Schroeder, C.E., and Poeppel, D. Visual input enhances selective speech envelope tracking in auditory cortex at a ‘‘cocktail party’’. (2013). Journal of Neuroscience. 33, 1417–1426.

Cogan, G. B., and Poeppel D A mutual information analysis of neural coding of speech by low-frequency MEG phase information. (2011). Journal of Neurophysiology. 106, 554–563.

Riley, J. A., and Cogan, G. B. A two-mechanism model of pure word deafness. (2007). In University of Maryland Working Papers in Linguistics, edn 16, 201–221 (Eds Omaki A et al.) College Park: UMWPiL

Book Chapters

Poeppel, D., Cogan G. B., Davidesco, I., & Flinker, A. Speech Perception: a perspective from lateralisation, motorisation, and oscillation. (2018). Oxford Handbook of Neurolinguistics: Oxford, UK.

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