{"id":39,"date":"2025-05-05T20:10:59","date_gmt":"2025-05-05T20:10:59","guid":{"rendered":"https:\/\/oweisslab.ece.ufl.edu\/?page_id=39"},"modified":"2025-05-05T20:10:59","modified_gmt":"2025-05-05T20:10:59","slug":"publications","status":"publish","type":"page","link":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/publications\/","title":{"rendered":"Publications"},"content":{"rendered":"<p><b>Refereed Journal Publications<\/b><\/p>\n<ol>\n<li>Ethan S Benevides, Prajwal P Thakre, Sabhya Rana, Michael D Sunshine, Victoria N Jensen, Karim Oweiss, David D Fuller (2025) &#8220;Chemogenetic stimulation of phrenic motor output and diaphragm activity&#8221;, <em>eLife<\/em>, Vol 13, doi: 10.7554\/eLife.97846.3<\/li>\n<li>Shuo-Yen Chueh, Yuanxin Chen, Narayan Subramanian, Benjamin Goolsby, Phillip Navarro, Karim Oweiss (2025) &#8220;Metaplasticity and continual learning: mechanisms subserving brain computer interface proficiency&#8221;,&nbsp;<em>Journal of Neural Engineering,&nbsp;<\/em>Vol 22, doi: 10.1088\/1741-2552\/add37b<\/li>\n<li>Ido Aizenbud, Nicholas Audette, Ryszard Auksztulewicz, Krzysztof Basi\u0144ski, Andr\u00e9 M Bastos, Michael Berry, Andres Canales-Johnson, Hannah Choi, Claudia Clopath, Uri Cohen, Rui Ponte Costa, Roberto De Filippo, Roman Doronin, Steven P Errington, Jeffrey P Gavornik, Colleen J Gillon, Arno Granier, Jordan P Hamm, Loreen Hert\u00e4g, Henry Kennedy, Sandeep Kumar, Alexander Ladd, Hugo Ladret, J\u00e9r\u00f4me A Lecoq, Alexander Maier, Patrick McCarthy, Jie Mei, Jorge Mejias, Fabian Mikulasch, Noga Mudrik, Farzaneh Najafi, Kevin Nejad, Hamed Nejat, Karim Oweiss, Mihai A Petrovici, Viola Priesemann, Lucas Rudelt, Sarah Ruediger, Simone Russo, Alessandro Salatiello, Walter Senn, Eli Sennesh, Sepehr Sima, Cem Uran, Anna Vasilevskaya, Julien Vezoli, Martin Vinck, Jacob A Westerberg, Katharina Wilmes, Yihan Sophy Xiong (2025) &#8220;Neural mechanisms of predictive processing: a collaborative community experiment through the OpenScope program&#8221;,&nbsp;<em>arXiv preprint<\/em>, arXiv:2504.09614<\/li>\n<li>Ethan Benevides, Prajwal Thakre, Sabhya Rana, Karim Oweiss, Vsevolod Polotsky, David Fuller (2024) &#8220;Chemogenetic phrenic motoneuron activation enables increased tidal volume&#8221;, <em>American Physiological Society<\/em>, Vol 39, doi: 10.1152\/physiol.2024.39.S1.1551<\/li>\n<li>Phillip Navarro, Karim Oweiss (2023) &#8220;Compressive sensing of functional connectivity maps from patterned optogenetic stimulation of neuronal ensembles&#8221;,&nbsp;<em>Patterns<\/em>, Vol 4, doi: 10.1016\/j.patter.2023.100845<\/li>\n<li>I-Wen Chen, Chung Yuen Chan, Phillip Navarro, Vincent de Sars, Emiliano Ronzitti, Karim Oweiss, Dimitrii Tanese, Valentina Emiliani (2023) &#8220;High-throughput in vivo synaptic connectivity mapping of neuronal micro-circuits using two-photon holographic optogenetics and compressive sensing&#8221;, <em>BioRxiv<\/em>, doi: 10.1101\/2023.09.11.557026<\/li>\n<li>Phillip Navarro, Karim Oweiss (2022) &#8220;Compressive sensing of neuronal connectivity maps from subsampled, cell-targeted optogenetic stimulation of a network model&#8221;,&nbsp;<em>BioRxiv<\/em>, doi: 10.1101\/2022.11.08.515672<\/li>\n<li>Shailaja Akella, Ali Mohebi, Jose C Principe, Karim Oweiss (2021) &#8220;Marked point process representation of oscillatory dynamics underlying working memory&#8221;,&nbsp;<em>Journal of Neural Engineering<\/em>, Vol 18, doi: 10.1088\/1741-2552\/abd577<\/li>\n<li>Shailaja Akella, Ali Mohebi, Kiersten Riels, Andreas Keil, Karim Oweiss, Jose C Principe (2020) &#8220;Local power estimation of neuromodulations using point process modeling&#8221;,&nbsp;<em>arXiv preprint<\/em>, arXiv:2011.08024<\/li>\n<li>Joseph S Canzano, Narayan Subramanian, Rebeca Castro, Abdurahman Siddiqi, Karim G Oweiss (2020) &#8220;In vivo two-photon imaging and parasympathetic neuromodulation of pancreatic microvascular dynamics in rats&#8221;,&nbsp;<em>BioRxiv<\/em>, doi: 10.1101\/2020.10.26.355669<\/li>\n<li>Ali Mohebi, Karim G Oweiss (2020) &#8220;Lateralized role of prefrontal cortex in guiding orienting behavior&#8221;,&nbsp;<em>BioRxiv<\/em>, &nbsp;doi: 10.1101\/2020.04.12.038356<\/li>\n<li>Mukta Vaidya, Karthikeyan Balasubramanian, Joshua Southerland, Islam Badreldin, Ahmed Eleryan, Kelsey Shattuck, Suchin Gururangan, Marc Slutzky, Leslie Osborne, Andrew Fagg, Karim Oweiss, Nicholas G Hatsopoulos (2018) &#8220;Emergent coordination underlying learning to reach to grasp with a brain-machine interface&#8221;, <em>Journal of neurophysiology<\/em>, Vol 119, doi: 10.1152\/jn.00982.2016<\/li>\n<li>Karthikeyan Balasubramanian, Mukta Vaidya, Joshua Southerland, Islam Badreldin, Ahmed Eleryan, Kazutaka Takahashi, Kai Qian, Marc W Slutzky, Andrew H Fagg, Karim Oweiss, Nicholas G Hatsopoulos (2017) &#8220;Changes in cortical network connectivity with long-term brain-machine interface exposure after chronic amputation&#8221;,&nbsp;<em>Nature Communication<\/em>, Vol 8, Issue 1, doi: 10.1038\/s41467-017-01909-2<\/li>\n<li>P. Justin Rossi, &#8230;, K. Oweiss, et al. (2016) \u201cThe Third Annual Deep Brain Stimulation Think Tank: A Review of Emerging Issues and Technologies\u201d, <i>Frontiers in Neuroscience,<\/i> Vol 10, doi: 10.3389\/fnins.2016.00034<\/li>\n<li>K. Oweiss, I Badreldin, (invited review) (2015) \u201cNeuroplasticity subserving the operation of Brain machine Interfaces,\u201d <i>Journal of Neurobiology of Disease<\/i><\/li>\n<li>S. Eldawlatly, K. Oweiss, (2014) \u201cTemporal precision in population &#8211; but not individual neuron &#8211; dynamics reveals rapid experience-dependent plasticity in the rat barrel cortex\u201d <i>Frontiers in Computational Neuroscience,<\/i> Vol 8, doi: 10.3389\/fncom.2014.00155<\/li>\n<li>A. Eleryan, M. Vaidya, J. Southerland, I. Badreldin, K. Balasubramanian, A. Fagg, N. Hatsopoulos, and K. Oweiss (2014) \u201cTracking Single Units in Chronic Recordings in the Macaque Motor Cortex for Brain Machine Interface Applications\u201d, <i>Frontiers in Neural Engineering<\/i> 7:23. doi:10.3389\/fneng.2014.00023<\/li>\n<li>I. Badreldin, K. Oweiss, (2014) \u201cNeural Decoding\u201d, in <i>Springer Encyclopedia of Computational Neuroscience<\/i>(Dieter Jaeger &amp; Ranu Jung, Eds), Springer Verlag<\/li>\n<li>M Aghagolzadeh, A Mohebi, K. Oweiss (2014), Sorting and tracking neuronal spikes via simple thresholding,\u201d IEEE Transactions on Neural Systems and Rehabilitation Engineering, 22:4, pp 858 &#8211; 869<\/li>\n<li>A. Mohebi, K. Oweiss, (2013) \u201cA fully automated rodent conditioning protocol for sensorimotor integration and cognitive control experiments,\u201d <i>Journal of Visualized Experiments<\/i><\/li>\n<li>J. Daly, J. Liu, M. Aghagolzadeh, K. Oweiss (2012), \u201cOptimal Space Time Precoding of Artificial Sensory Feedback through Mutichannel Microstimulation in Bi-directional Brain Machine Interfaces \u201c <i>J. of Neural Engineering<\/i>, 9, 065004, doi:10.1088\/1741-2560\/9\/6\/065004<\/li>\n<li>F. Zhang, M. Aghagolzadeh, and K. Oweiss, (2012) \u201cA Fully Implantable, Programmable and Multimodal Neuroprocessor for Wireless, Cortically Controlled Brain-Machine Interface Applications,\u201d <i>Journal of Signal Processing Systems<\/i>, pp. 1-11, doi:10.1007\/s11265-012-0670<\/li>\n<li>K.Y. Kwon, S. Eldawlatly, K. Oweiss (2012)\u201cNeuroQuest: A Comprehensive Analysis Tool for Extracellular Neural Ensemble Recordings,\u201d <i>Journal of Neuroscience Methods<\/i><i> 204, 189\u2013 201<\/i><\/li>\n<li>S. Eldawlatly, K. Oweiss (2011) \u201cMillisecond-Timescale Local Network Coding in the Rat Primary Somatosensory Cortex,\u201d <i>PLoS ONE<\/i> 6(6): e21649. doi:10.1371\/journal.pone.0021649<\/li>\n<li>J. Liu, H. Khalil, K. Oweiss (2011)\u201cNeural Feedback for Instantaneous Spatiotemporal Modulation of Afferent Pathways in Bi-directional Brain Machine Interfaces,\u201d <i>IEEE Transactions on Neural Systems &amp; Rehabilitation Engineering,<\/i> 19:5, pp 521-533, doi: 10.1109\/TNSRE.2011.2162003<\/li>\n<li>J. Liu, H. Khalil, K. Oweiss (2011)\u201cModel-based analysis and control of a network of Basal Ganglia spiking neurons in the normal and Parkinsonian states,\u201d <i>Journal of Neural Engineering<\/i><i>, <\/i>8: 045002<\/li>\n<li>M. Grosse-Wentrup, D. Mattia, K. Oweiss (2011), \u201cUsing Brain-Computer Interfaces to Induce Neural Plasticity and Restore Function,\u201d <i>Journal of Neural Engineering<\/i><i>, <\/i>8:025004<\/li>\n<li>M. Aghagolzadeh, S. Eldawlatly and K. Oweiss, (2010) \u201cSynergistic Coding by Cortical Neural Ensembles\u201d <i>IEEE Transactions on Information Theory<\/i>, 56:2, pp. 875-899<\/li>\n<li>S. Eldawlatly, Y. Zhou, R. Jin and K. Oweiss, (2010) \u201cOn The Use of Dynamic Bayesian Networks in Reconstructing Functional Neuronal Networks from Spike Train Ensembles\u201d, <i>Journal of Neural Computation<\/i>, MIT Press, 22:1, pp. 158-189<\/li>\n<li>M. Aghagolzadeh and K. Oweiss, (2009) \u201cCompressed and Distributed Sensing of Neuronal Activity for Real Time Spike Train Decoding\u201d, <i>IEEE Transactions on Neural Systems &amp; Rehabilitation Engineering<\/i>, 17:2, pp. 416-427<\/li>\n<li>S. Eldawlatly, R. Jin, and K. Oweiss, (2009) \u201cIdentifying Functional Connectivity in Large Scale Neural Ensemble Recordings: A Multiscale Data Mining Approach\u201d, <i>Journal of Neural Computation<\/i>, MIT Press, 21:2, pp. 450-477<\/li>\n<li>M. Kamboh, A. Mason and K. Oweiss, (2008) \u201cAnalysis of Lifting and B-Spline DWT Implementations for Implantable Neuroprosthetics,\u201d <i>Journal of Signal Processing Systems<\/i>, 52:3, pp. 249-261<\/li>\n<li>Kamboh, M. Raetz, K. Oweiss, A. Mason, (2007) \u201cArea-Power Efficient VLSI Implementation of Multichannel DWT for Data Compression in Implantable Neuroprosthetics,\u201d <i>IEEE Transactions Biomedical Circuits and Systems<\/i>, 1:2, pp. 128-135<\/li>\n<li>K. Oweiss, A. Mason, Y. Suhail, A. Kamboh, K. Thomson (2007) \u201cA Scalable Wavelet Transform VLSI Architecture for Real-Time Signal Processing in High Density Intra-cortical Implants,\u201d <i>IEEE Transactions on Circuits and Systems<\/i>, 54:6, pp. 1266-1278<\/li>\n<li>K. Oweiss, and D. Anderson, (2007) <i>\u201c<\/i>Tracking Signal Subspace Invariance for Blind Separation and Classification of Nonorthogonal Sources in Correlated Noise,\u201d <i>EURASIP Journal on Advances in Signal Processing<\/i>, vol. 2007, Article ID 37485, 20 pages<\/li>\n<li>K. Oweiss, R. Jin, Y. Suhail, (2007) \u201cIdentifying neuronal assemblies with local and global connectivity with spectral clustering in scale space\u201d<i> <\/i><i>Journal of Neurocomputing<\/i>, <a href=\"http:\/\/www.sciencedirect.com\/science?_ob=PublicationURL&amp;_tockey=%23TOC%235660%232007%23999299989%23650784%23FLA%23&amp;_cdi=5660&amp;_pubType=J&amp;view=c&amp;_auth=y&amp;_acct=C000051676&amp;_version=1&amp;_urlVersion=0&amp;_userid=1111158&amp;md5=9f6f05fdbef40a54059fb2a93dc41118\">70:10-12<\/a>, pp. 1728-1734<\/li>\n<li>K. Oweiss, (2006) \u201cA Systems Approach for data compression and latency reduction in cortically-controlled brain machine interfaces,\u201d <i>IEEE Transactions on Biomedical Engineering<\/i>, 53:7, pp. 1364 \u2013 1377<\/li>\n<li>K. Oweiss, D.J. Anderson, (2002) \u201cSpike Sorting: A Novel Shift and Amplitude Invariant Technique,\u201d<i>Journal of Neurocomputing<\/i>, Vol 44-46, pp. 1133-1139<\/li>\n<li>K. Oweiss, D.J. Anderson, (2001) \u201cNoise Reduction in Multichannel Neural Recording using a New Array Wavelet Denoising Algorithm,\u201d <i>Journal of Neurocomputing<\/i>, Vol. 38-40, pp. 1687-1693<\/li>\n<\/ol>\n<p><b>Books &amp; Dissertations<\/b><\/p>\n<ol>\n<li>K. Oweiss, Editor (2010), <i>Statistical Signal Processing for Neuroscience and Neurotechnology<\/i>, Academic Press, Elsevier, 1<sup>st<\/sup> edition, ISBN-13: 978-0-12-375027-3.<\/li>\n<li>K. Oweiss (2002), <i>Multiresolution Analysis of<\/i> <i>Multichannel Neural Recordings in the Context of Signal Detection, Estimation and Noise Suppression, <\/i>Ph.D. Dissertation, Univ. of Michigan, Ann Arbor<\/li>\n<\/ol>\n<p><b>Book Chapters<\/b><\/p>\n<ol>\n<li>K. Oweiss (Section Editor) (2021) \u201cBrain Machine Interface: Overview\u201d in <i>Springer Encyclopedia of Computational Neuroscience<\/i> (Dieter Jaeger &amp; Ranu Jung, Eds), Springer Verlag<\/li>\n<li>I. Badreldin, K. Oweiss (2022) \u201cNeural Decoding\u201d in <i>Springer Encyclopedia of Computational Neuroscience<\/i> (Dieter Jaeger &amp; Ranu Jung, Eds), Springer Verlag<\/li>\n<li>K. Oweiss, M. Aghagolzadeh (2010) \u201cDetection and Classification of Extracellular Action Potential Recordings,\u201d in <i>Statistical Signal Processing for Neuroscience and Neurotechnology (Ch.2) <\/i><i>&#8211; K. Oweiss (Editor)<\/i>, Academic Press, Elsevier, pp. 13-68, ISBN: 978-0-12-375027-3<\/li>\n<li>S. Eldawlatly, K. Oweiss, (2010) \u201cGraphical Models of Functional and Effective Neuronal Connectivity,\u201d in <i>Statistical Signal Processing for Neuroscience and Neurotechnology<\/i><i>, (Ch. 5) &#8211; K. Oweiss<\/i> (<i>Editor<\/i>), Academic Press, Elsevier, pp. 119-159, ISBN: 978-0-12-375027-3<\/li>\n<li>K. Oweiss, D. J. Anderson (2006) \u201cSpike Superposition Resolution In Multichannel Extracellular Neural Recordings: A Novel Approach,\u201d <i>in Handbook of Neural Engineering<\/i> (Ch. 22) \u2013 M. Akay, (<i>Editor<\/i>), Wiley-IEEE Press, pp. 369-381, ISBN: 978-0-470-05669-1<\/li>\n<\/ol>\n<p><b>Editorials<\/b><\/p>\n<ol>\n<li>K. Oweiss, (2011) \u201cOptogenetics, Neural Ensemble Recordings and Graphical Models: Characterizing Plasticity in Neuronal Networks <i>in vivo<\/i>,\u201d in <i>Proc. of IEEE 35<\/i><i><sup>th<\/sup><\/i><i> Engineering &amp; Biology<\/i> Society<\/li>\n<li>K. Oweiss, (Invited) (2011) \u201cBrain Machine Interfaces for personalized neurological diagnostics and therapy\u201d <i>Journal of CyberTherapy and Rehabilitation<\/i>, 4:1, pp. 38 (ISSN: 1784-9934)<\/li>\n<li>K. Oweiss, (2010) <i>Statistical Signal Processing for Neuroscience and Neurotechnology<\/i>, Academic Press, Elsevier, 1<sup>st<\/sup> edition, pp. 1-11, ISBN: 978-0-12-375027-3<\/li>\n<li>T. W. Berger, Z. Chen, A. Cichocki, K. Oweiss, R. Quian Quiroga, and N. V. Thakor, (2010) \u201cSignal Processing for Neural Spike Trains,\u201d <i>Journal of Computational Intelligence and Neuroscience,<\/i> Volume 2010, Article ID 698751, 2 pages, doi:10.1155\/2010\/698751<\/li>\n<li>K. Oweiss, J. Principe and D. Johnson, (2009) \u201cStatistical Signal Processing in Neuroscience\u201d, <i>EURASIP Journal on Advances in Signal Processing<\/i>, Volume 2009, Article ID 105086, 1 page, doi:10.1155\/2009\/105086<\/li>\n<\/ol>\n<p><b>Refereed Conference Papers &#8211; Published<\/b><\/p>\n<p><b>(i) Full publication review<\/b><\/p>\n<ol>\n<li>Michael Bender, He Zheng, Adolfo Ramirez-Zamora, David Vaillancourt, Kelly Foote, and Karim Oweiss, (2026) &#8220;Thalamic Spectral and Connectivity Biomarkers for Adaptive Deep Brain Stimulation in Essential Tremor*&#8221;,&nbsp;<em>IEEE\/EMBS Conference on Neural Engineering (NER),&nbsp;<\/em>San Francisco, CA<\/li>\n<li>Michael Bender, He Zheng, Adolfo Ramirez-Zamora, David Vaillancourt, Kelly Foote, and Karim Oweiss, (2025) &#8220;Evaluating Thalamic Biomarkers for Closed-Loop Deep Brain Stimulation in Essential Tremor*&#8221;, <em>IEEE\/EMBS Engineering in Medicine and Biology Conference (EMBC), <\/em>Copenhagen, Denmark<\/li>\n<li>May M Mansy, Hongjae Kim, Karim G Oweiss (2019) &#8220;Spatial detection characteristics of a single photon fiber photometry system for imaging neural ensembles*&#8221;,&nbsp;<em>IEEE\/EMBS Conference on Neural Engineering (NER),&nbsp;<\/em>San Francisco, CA<\/li>\n<li>I. Badreldin, K. Oweiss, (2014), \u201cA Design and Implementation Framework for Unsupervised High-resolution Recursive Filters in Neuromotor Prosthesis Applications,\u201d <i>Asilomar Conference on Signals, Systems, and Computers<\/i>, Pacific Grove, CA&nbsp;<\/li>\n<li>I. Badreldin, J. Southerland, M. Vaidya, A. Eleryan, K. Balasubramanian, A. Fagg, N. Hatsopoulos, K. Oweiss, (2013) \u201cUnsupervised Decoder Initialization for Brain-Machine Interfaces Using Neural State Space Dynamics,\u201d IEEE Int. Conf. Neural Engineering, pp. 997-1000<\/li>\n<li>A Eleryan, M. Vaidya, I. Badreldin, J. Southerland, K. Balasubramanian, A. Fagg, N. Hatsopoulos, K. Oweiss (2013) \u201cTracking Chronically Recorded Single-Units in Cortically Controlled BMIs,\u201d IEEE Int. Conf. Neural Engineering, pp. 427-430<\/li>\n<li>J. Daly, E. Purcell, M. Zoratti, K. Oweiss, (2013) \u201cControl of Somatosensory Cortex Via Optogenetic Stimulation of Motor and Thalamic Pathways,\u201d Transactions of Japanese Society for Medical and Biological Engineering<\/li>\n<li>J. Daly, E. Purcell, M. Zoratti, K. Oweiss, (2013) \u201cControl of Somatosensory Cortex via Optogenetic Stimulation of Motor and Thalamic Pathways\u201d, in <i>Proc. IEEE Int. Conf. on EMBC<\/i><\/li>\n<li>K. Balasubramaniam, J. Southerland, M. Vaidya, K. Quan, A. Eleryan, A. Fagg, M. Slutzky, K. Oweiss, N. Hatsopoulos, (2013) \u201cOperant conditioning of a multiple degree-of-freedom brain-machine interface in a primate model of amputation,\u201d in <i>Proc. IEEE Int. Conf. on EMBC<\/i><\/li>\n<li>I. Badreldin, K. Oweiss, (2012) \u201cPerformance Evaluation of Linear Brain Machine Interface Decoders in Neural State Space,\u201d in <i>Proc. of IEEE Cairo Int. Conf. on Biomedical Engineering<\/i>, pp. 10-13<\/li>\n<li>J. Liu, H. Khalil, K. Oweiss, (2011) \u201cModel-Based Spatiotemporal Analysis and Control of a Network of Spiking Basal Ganglia Neurons\u201d in <i>Proc. IEEE Int. Conf. on Neural Engineering<\/i>, pp. 273 \u2013 277<\/li>\n<li>M. Aghagolzadeh, K. Oweiss, (2011) \u201cAn Adaptive Wireless Communication Protocol for Neural Data Transmission in Freely Behaving Subjects\u201d in <i>Proc. IEEE Int. Conf. on Neural Engineering<\/i>, pp. 404 \u2013 407<\/li>\n<li>F. Zhang, M. Aghagolzadeh, K. Oweiss, (2011) \u201cA Low-Power Implantable Neuroprocessor on Nano-FPGA for Brain Machine Interface Applications\u201d in <i>Proc of<\/i> <i>IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP)<i>,<\/i> pp. 1593 \u2013 1596<\/li>\n<li>K.Y. Kwon, K. Oweiss, (2011) \u201cWavelet footprints for detection and sorting of extracellular neural action potentials\u201d, in <i>Proc of<\/i> <i>IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP)<i>,<\/i> pp. 609 \u2013 612<\/li>\n<li>A. M. Kamboh, Y. Yang, K. Oweiss and A. J. Mason, (2011) \u201cChannel Characterization for Implant to Body Surface Communication,\u201d in <i>Proc IEEE International Symposium on Circuits and Systems<\/i> (ISCAS), pp. 913 \u2013 916<\/li>\n<li>F. Zhang, M. Aghagolzadeh, K. Oweiss, (2010) \u201cAn Implantable Neuroprocessor for Multichannel Compressive Neural Recording and on-the-Fly Spike Sorting with Wireless Telemetry\u201d in <i>Proc. IEEE Biomedical Circuits and Systems<\/i><i>,<\/i> pp. 1-4<\/li>\n<li>J. Liu, K. Oweiss, H. Khalil, (2010) \u201cFeedback Control of the Spatiotemporal Firing Patterns of Neural Microcircuits,\u201d in <i>Proc. of 49<\/i><i><sup>th<\/sup><\/i><i> IEEE Conference on Decision and Control<\/i> (CDC), pp. 4679 \u2013 4684<\/li>\n<li>S. Eldawlatly and K. Oweiss, (2010) \u201cCausal Networks Provide Functional Signature of Stimulus Encoding in the Rat Barrel Cortex\u201d, in <i>Proc. 31<\/i><i><sup>st<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i><i>,<\/i> pp. 5460 \u2013 5463<\/li>\n<li>M. Aghagolzadeh, F. Zhang, and K. Oweiss, (2010) \u201cAn Implantable VLSI Architecture for Real Time Spike Sorting In Cortically Controlled Brain Machine Interfaces,\u201c in <i>Proc. 31<\/i><i><sup>st<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i><i>,<\/i> pp. 1569 \u2013 1572<\/li>\n<li>A. Kamboh, Y. Yang, K. Oweiss, A. Mason, (2010) \u201cDesign of a Configurable Neural Data Compression System for Intra-Cortical Implants,\u201d in<i> <\/i><i>Proc. of IEEE Int. Symp. on Circuits &amp; Systems (ISCAS)<\/i>, pp. 3473\u2013 3476<\/li>\n<li>M. Aghagolzadeh, S. Eldawlatly, and K. Oweiss (2009) \u201cAn Information Theoretic Approach to Identify the Role of Higher-order Interactions between Cortical Neurons in Stimulus Coding \u201c <i>in Proc. <\/i><i>43<\/i><i><sup>rd<\/sup><\/i><i> Asilomar IEEE Int. Conference on Signals, Systems, and Computers<\/i><i>, <\/i>Pacific Grove, CA, pp. 1085-1089<\/li>\n<li>M. Aghagolzadeh, S. Eldawlatly, and K. Oweiss, (2009) \u201cCoding Stimulus Information with Cooperative Neural Populations,\u201d in <i>Proc. of IEEE Int. Symposium on Information Theory<\/i>, pp. 1594 \u2013 1598<\/li>\n<li>S. Eldawlatly, Y. Zhou, R. Jin, K. Oweiss, (2009) \u201cInferring Functional Cortical Networks from Spike Train Ensembles using Dynamic Bayesian Networks,\u201d in <i>Proc of<\/i> <i>IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP), pp. 3489-3492<\/li>\n<li>M. Aghagolzadeh, K. Oweiss, (2009) \u201cInstantaneous rate estimation of Neuronal Point processes from a Compressed representation of their non-binary spike trains \u201c in <i>Proc IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP), pp. 1593 \u2013 1596<\/li>\n<li>A. M. Kamboh, K. Oweiss, A. Mason, (2009) &#8220;Resource Constrained VLSI Architecture for Implantable Neural Data Compression Systems,\u201d<i> <\/i><i>Proc. of IEEE Int. Symp. On Circuits &amp; Systems (ISCAS)<\/i>, pp. 1481 &#8211; 1484<\/li>\n<li>F. Abu-Nimeh, F. Inanlou, M. Aghagolzadeh, A. Kamboh, A. Mason, M. Ghovanloo, and K. Oweiss, (2009) \u201cA highly modular, wireless, Implantable Interface to the Cortex,\u201d in <i>Proc. IEEE Int. Conf. on Neural Engineering<\/i>, 375 \u2013 378<\/li>\n<li>M. Aghagolzadeh, S. Eldawlatly, K. Oweiss, (2009) \u201cIdentifying Functional Connectivity of Motor Neuronal Ensembles Improves the Performance of Population Decoders,\u201d in <i>Proc. IEEE Int. Conf. on Neural Engineering<\/i>, pp. 534 \u2013 537<\/li>\n<li>K.Y. Kwon, S. Eldawlatly and K. Oweiss, (2009) \u201cNeuroQuest: A Comprehensive Tool for Large Scale Neural Data Processing and Analysis\u201d in <i>Proc. IEEE Int. Conf. on Neural Engineering<\/i>, pp. 622 \u2013 625<\/li>\n<li>F. Abu-Nimeh, M. Aghagolzadeh, K. Oweiss, (2008) \u201cVLSI-friendly architecture for real-time spike sorting in Brain Machine Interface applications,\u201d in <i>Proc. IEEE Biomedical Circuits &amp; Systems (BioCAS)<\/i><i>, <\/i>pp. 265-268<\/li>\n<li>M. Aghagolzadeh, M. Shetliffe, K. Oweiss, (2008) \u201cImpact of Compressed Sensing of Motor Cortical Activity on Spike Train Decoding in Brain Machine Interfaces,\u201d in <i>&nbsp;<\/i><i>Proc. 30<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC),<\/i> pp. 5302-5305<\/li>\n<li>S. El-Dawlatly, Y. Zhou, R. Jin and K. Oweiss, (2008) \u201cReconstructing Functional Neuronal Circuits using Dynamic Bayesian Networks\u201d<i> Proc. 30<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC),<\/i> pp. 5531-5534<\/li>\n<li>K. Oweiss, M. Shetliffe and S. Eldawaltaly (2008) \u201cRevamping Signal Processing for Adaptive, Real Time, Bi-directional Brain Machine Interface Systems,\u201d <i>IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP), 5197-5200<\/li>\n<li>A. M. Kamboh, M. Raetz, A. Mason and K. Oweiss, (2007) \u201cArea-Power Efficient Lifting-Based DWT Hardware for Implantable Neuroprosthetics,\u201d <i>Proc. of IEEE Int. Symposium of Circuits and Systems<\/i> (ISCAS), pp. 2371-2374<\/li>\n<li>S. El Dawlatly and K. Oweiss, (2007) \u201cTracking Plasticity in Probabilistic Spike Trains Models of Synaptically-Coupled Neural Population,\u201d in <i>Proc. of 3<\/i><i><sup>rd<\/sup><\/i><i> Int. IEEE EMBS Conf. on Neural Engineering<\/i>, pp. 498-501<\/li>\n<li>M. A. Shetliffe, K. Lorenz, B. Pietrzyk, and K. Oweiss, (2007) \u201cCompressed and Distributed Sensing of Population Activity for Multiscale Decoding of Motor Cortical Response Properties,\u201d in <i>Proc. of 3<\/i><i><sup>rd<\/sup><\/i><i> IEEE EMBS Conf. on Neural Engineering<\/i>, pp. 217-220<\/li>\n<li>F. Chen, S. El-Dawlatly, R. Jin and K. Oweiss, (2007) \u201cIdentifying and Tracking the number of independent clusters of functionally interdependent neurons from biophysical models of population activity,\u201d in <i>Proc. of 3<\/i><i><sup>rd<\/sup><\/i><i> IEEE EMBS Conf. on Neural Engineering<\/i>, pp. 542-545<\/li>\n<li>A. M. Kamboh, A. Mason and K. Oweiss, (2007) \u201cA High-Yield Area-Power Efficient DWT Hardware for Implantable Neural Interface Applications,\u201d in <i>Proc. of 3<\/i><i><sup>rd<\/sup><\/i><i> IEEE EMBS Conf. on Neural Engineering<\/i>, pp. 212-216<\/li>\n<li>K. Oweiss, (2007) \u201cCompressed and Distributed Sensing of Multivariate Neural Point Processes,\u201d in <i>Proc. IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing <\/i>(ICASSP), Vol. II pp. 577-580<\/li>\n<li>A. Kamboh, A. Mason, K. Oweiss, (2006) \u201cComparison of Lifting and B-Spline DWT Implementations for Implantable Neuroprosthetics,\u201d in <i>IEEE Sensors<\/i>, Daegu, Korea, pp 22-25<\/li>\n<li>S. Chakrabartty, A. Gore and K. Oweiss, (2006) \u201cAn adaptive multiple-input multiple-output analog-to-digital converter for high density neuroprosthetic electrode arrays\u201d <i>in<\/i> <i>Proc. 28<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp. 656-659<\/li>\n<li>K. Oweiss, R. Jin, F. Chen, (2006) \u201cAssessing temporal and spatial evolution of clusters of functionally interdependent neurons using graph partitioning techniques,\u201d in <i>Proc. 28<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp.1601-1604<\/li>\n<li>K. Oweiss, (2006) \u201cA MIMO channel approach for characterizing electrode-tissue interface in long-term chronic microelectrode array recordings\u201d <i>in<\/i> <i>Proc. 28<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp.3357-3360<\/li>\n<li>K. Thomson and K. Oweiss, (2006) \u201cHardware Considerations of a Spatial Filter for Decorrelating High-density Multielectrode Neural Recordings\u201d in <i>Proc. 28<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp. 1244-1247<\/li>\n<li>Y. Suhail, K. Oweiss, (2006) \u201cAugmenting Information channels in Hearing Aids and cochlear implants under adverse conditions\u201d, <i>in <\/i><i>Proc. of IEEE Conf. Acoustics, Speech &amp; Signal Processing (ICASSP)<\/i>, vol. V, pp. 889-893<\/li>\n<li>R. Jin, Y. Suhail, K. Oweiss, (2006) \u201cA Mixture model for spike train ensemble analysis using spectral clustering,\u201d <i>in <\/i><i>Proc. IEEE Conf. Acoustics, Speech &amp; Signal Processing (ICASSP)<\/i>, vol. V, pp. 885-888<\/li>\n<li>K. Oweiss, D. Anderson, (2006) \u201c Exploiting signal subspace invariance to resolve non-stationary,&nbsp; non-orthogonal sensor array signals in correlated noise fields,\u201d <i>in <\/i><i>Proc. IEEE Conf. Acoustics, Speech &amp; Signal Processing (ICASSP)<\/i>, vol. IV, pp.885-888<\/li>\n<li>K. Oweiss, (2005) \u201cLatency Reduction During Telemetry Transmission in Brain-Machine Interfaces\u201d in <i>Proc. 27<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp. 2075-2078<\/li>\n<li>Y. Suhail, K. Oweiss, (2005) \u201cMultiresolution Bayesian Detection of Multiunit Extracellular Spike Waveforms in Multichannel Neuronal Recordings,\u201d <i>in <\/i><i>Proc. 27<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp.141-144<\/li>\n<li>K. Oweiss, A. Mason, K. Thomson, J. Li, Y. Suhail, (2005) \u201cAugmenting Real-Time DSP in Implantable High-Density Neuroprosthetic Devices,\u201d in <i>Proc. 3<\/i><i><sup>rd<\/sup><\/i><i> <\/i><i>IEEE- Conf. on Microtechnology in Medicine &amp; Biology<\/i><i>,<\/i> pp.108-111<\/li>\n<li>A. Mason, J. Li, K. Thomson, Y. Suhail, K. Oweiss, (2005) \u201cDesign Optimization of Integer Lifting DWT Circuitry for Implantable Neuroprosthetics,\u201d in <i>Proc<\/i>. <i>3<\/i><i><sup>rd<\/sup><\/i><i> IEEE- Conf. on Microtechnology in Medicine &amp; Biology<\/i><i>, <\/i>pp. 112-115<\/li>\n<li>K.E. Thomson, Y. Suhail, and K. Oweiss, (2005) &#8221; A scalable architecture for streaming neural information from implantable multichannel neuroprosthetic devices,\u201d in<i> <\/i><i>Proc. of IEEE Int. Symp. on Circuits &amp; Systems (ISCAS)<\/i>, pp. 1342-1345<\/li>\n<li>K. Oweiss, R. Jin, Y. Suhail, (2005) \u201cScale-Space Processing and Clustering for Efficient Multi-Electrode Data Analysis of Large-size Neuronal Ensembles,\u201d in<i> <\/i><i>Proc.<\/i><i> <\/i><i>2<\/i><i><sup>nd<\/sup><\/i><i> Int. IEEE Conf. on Neural Engineering<\/i>, pp.217-220<\/li>\n<li>K. Oweiss, K. Thomson, D. Anderson, (2005) \u201cA Systems Approach for Real-Time Data Compression in Advanced Brain-Machine Interfaces,\u201d in <i>Proc. 2<\/i><i><sup>nd<\/sup><\/i><i> IEEE Conf. on Neural Engineering<\/i>, pp.62-65<\/li>\n<li>Y. Suhail, and K. Oweiss, (2004) &#8220;A Reduced Complexity Integer Lifting Wavelet-Based Module for Real-Time Processing in Implantable Neural Interface Devices,&#8221; in <i>&nbsp;<\/i><i>Proc. 26<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp. 4552-4555<\/li>\n<li>K. Oweiss, (2004) \u201cAn Information Theoretic Approach for Optimizing The Analysis Of High-Density Multi-electrode Multi-unit Neuronal Recordings,\u201d in <i>Proc. 26<\/i><i><sup>th<\/sup><\/i><i> IEEE Eng. in Medicine and Biology (EMBC)<\/i>, pp. 4520-4523<\/li>\n<li>K. Oweiss, (2004) \u201cData Fusion in Wireless Sensor Array Networks with Signal and Noise Correlation Mismatch,\u201din <i>Proc. of<\/i>&nbsp;<i> IEEE Conf. Acoustics, Speech &amp; Signal Processing<\/i><i> (ICASSP)<\/i>, II, 281-284<\/li>\n<li>D.J. Anderson, K. Oweiss, (2003) &#8220;Capturing Signal Activity and Spatial Distribution of Neurons in a Sub-Millimeter Volume,&#8221; <i>Proc. of 36<\/i><i><sup>th <\/sup><\/i><i>IEEE Asilomar Conf. on Signals, Systems and Computers<\/i>, 387-391<\/li>\n<li>K. Oweiss, D.J. Anderson, and Marios M. Papaefthymiou (2003) \u201cOptimizing Signal Coding in Neural Interface System-on-a-Chip Modules,\u201d in <i>Proc. of 25<\/i><i><sup>th<\/sup><\/i><i> IEEE Int. Conf. on Eng. in Medicine and Biology (EMBC)<\/i>, (I): 2016-2019<\/li>\n<li>K. Oweiss, (2003) \u201cSource Detection in Correlated Multichannel Signal and Noise Fields,\u201d in <i>Proc. of IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i>(ICASSP)<i>,<\/i> vol. V: 257-260<\/li>\n<li>K. Oweiss, (2003) \u201cSpike Superposition Resolution In Multichannel Extracellular Neural Recordings: A Novel Approach,\u201d in <i>Proc. of 1<\/i><i><sup>st<\/sup><\/i><i> Int. IEEE Conf. on Neural Engineering<\/i>, (I): 130-133<\/li>\n<li>K. Oweiss, D.J. Anderson, (2002) \u201cIndependent Component Analysis of Multichannel Neural Recordings at the Micro-Scale,\u201din <i>Proc. of&nbsp;the 2<\/i><i><sup>nd<\/sup><\/i><i> joint<\/i> <i>IEEE<\/i> <i>BMES-EMBC<\/i><i>,<\/i> (I): 2012-2013<\/li>\n<li>K. Oweiss, D.J. Anderson, (2002) \u201cA Unified Framework for Advancing Array Signal Processing Technology of Multichannel Microprobe Neural Recording Devices,\u201d in <i>Proc of 2<\/i><i><sup>nd<\/sup><\/i><i> IEEE-EMBS Conference on Microtech. in Med. &amp; Bio.<\/i><i>, <\/i>(I):245-250<\/li>\n<li>K. Oweiss, D.J. Anderson, (2002) \u201cA Multiresolution Generalized Maximum Likelihood Approach for the Detection of Unknown Transient Multichannel Signals in Colored Noise with Unknown Covariance,\u201d in <i>Proc. of IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i> (ICASSP), vol. (3): 2993-2996<\/li>\n<li>K. Oweiss, D.J. Anderson, (2001) \u201cMASSIT- Multiresolution Analysis of Signal Subspace Invariance Techniques: A novel technique for blind source separation,\u201d in <i>Proc.&nbsp; of&nbsp; IEEE 35<\/i><sup>th<\/sup><i> Asilomar Conf. on Signals, Systems and Computers<\/i>, (I):819-823<\/li>\n<li>K. Oweiss, D.J. Anderson, (2001) \u201cNeural Source Localization using Advanced Sensor Array Signal Processing Techniques,\u201d in <i>Proc. of&nbsp;the 23<\/i><sup>rd<\/sup> <i>IEEE Eng. in Medicine and Biology (EMBC)<\/i><i>, <\/i>(I): 707-710<\/li>\n<li>K. Oweiss, D.J. Anderson, (2001) \u201cA New Technique for Blind Source Separation using Subband Subspace Analysis in Correlated Multichannel Signal Environments,\u201d in<i> <\/i><i>Proc. of&nbsp; IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing<\/i><i> <\/i>(ICASSP)<i>, vol. <\/i>I: 2813-2816<\/li>\n<li>D.J. Anderson, K. Oweiss,&nbsp;and&nbsp;S. M. Bierer, (2001) \u201cSensor Arrays in the Micro-Environment of the Brain,\u201d in<i> <\/i><i>Proc. of IEEE Int. Conf. Acoustics, Speech &amp; Signal Processing (ICASSP)<\/i><i>, <\/i>(I): 3433-3436<\/li>\n<li>K. Oweiss, D. J. Anderson, (2000)\u201cA New Approach to Array Denoising,\u201d in <i>Proc.&nbsp; IEEE 34<\/i><sup>th<\/sup><i> Asilomar Conference on Signals, Systems and Computers<\/i>, (I): 1403-1407<\/li>\n<li>K. Oweiss, M.K. Wise, C. Lopez, J. Wiler, and D.J. Anderson, (1999) \u201cChronic Electrode-Brain Interface Modeled with FEM,\u201d in <i>Proc. of the 1<\/i><sup>st<\/sup><i> Joint IEEE-EMBC &amp; BMES<\/i>, (I):453<\/li>\n<li>&nbsp;K. Oweiss, O. A. Alim, (1996) &#8220;Performance evaluation of time-delay fuzzy neural networks for isolated word recognition,&#8221; in <i>IEEE Int. Symp. on Neuro-Fuzzy Systems<\/i>, pp: 203 &#8211; 211<\/li>\n<li>K. Oweiss, O.A. Alim, and N.E. Boghdadly, (1996) &#8220;Isolated word recognition using time-delay fuzzy neural networks,&#8221; in <i>SPIE 10<\/i><i><sup>th<\/sup><\/i><i> Int. conf. Aerospace\/Defense sensing and control<\/i>, Vol. 2761, No.2, pp.1511-1515<\/li>\n<\/ol>\n<p><b>(ii) Refereed Journal Supplements<\/b><\/p>\n<ol>\n<li>M. Aghagolzadeh and K. Oweiss, (2011) \u201cPrediction of Spatiotemporal Patterns of Neural Activity Using a Higher-Order Markov Representation of Instantaneous Pairwise Maximum Entropy Model,\u201c <i>BMC Neuroscience<\/i>,12(Suppl 1):P245, doi:10.1186\/1471-2202-12-S1-P245<\/li>\n<li>S. Eldawlatly, K. Oweiss, (2011), \u201cNetwork dynamics associated with experience-dependent plasticity in the rat somatosensory cortex,\u201d<i> BMC Neuroscience<\/i>, 12(Suppl 1):P246, doi:10.1186\/1471-2202-12-S1-P246<\/li>\n<li>A. Mohebi, J. Cardin, K. Oweiss, (2011) \u201cA cell-type-specific dynamic Bayesian network model for spontaneous and optogenetically evoked activity in the primary visual cortex,\u201d <i>BMC Neuroscience<\/i>,12(Suppl 1):O5, doi:10.1186\/1471-2202-12-S1-O5<\/li>\n<li>S. Eldawlatly, K. Oweiss, (2010), \u201cCausal networks in the rat barrel cortex provide a signature of stimulus encoding,\u201d <i>BMC Neuroscience<\/i>, 11 (Suppl 1):O18, doi:10.1186\/1471-2202-11-S1-O18<\/li>\n<li>J. Liu, K. Oweiss and H. Khalil , (2010) \u201cFeedback control of the spatiotemporal firing pattern of a basal ganglia microcircuit model,\u201d <i>BMC Neuroscience<\/i>, 11 (Suppl 1):O16, doi:10.1186\/1471-2202-11-S1-O16<\/li>\n<li>S. Eldawlatly, M. Aghagolzadeh, K. Oweiss, (2009) \u201cDecoding spike train ensembles using the cooperative interaction between task-dependent cortical neurons\u201d<i> BMC Neuroscience<\/i>, 10 (Suppl 1):P96 doi: doi:10.1186\/1471-2202-10-S1-P96<\/li>\n<li>S. Eldawlatly, Y. Zhou, R. Jin, K. Oweiss, (2008) \u201cInferring neuronal functional connectivity using dynamic Bayesian networks\u201d <i>BMC Neuroscience<\/i>, 9 (Suppl 1):P19 doi:10.1186\/1471-2202-9-S1-P19<\/li>\n<li>M. Aghagolzadeh, K. Oweiss, (2008) \u201cInvestigating the Effect of Cortical Discharge Variability on the Accuracy of Population Decoders,\u201d <i>BMC Neuroscience<\/i>, 9 (Suppl 1):P2, doi:10.1186\/1471-2202-9-S1-P2<\/li>\n<li>S. Eldawlatly, K. Oweiss, (2007) \u201cIdentifying spike-timing dependent plasticity in spike train models of synaptically-coupled neuronal ensembles,\u201d <i>BMC Neuroscience<\/i>, 8(Suppl 2): P193, doi:10.1186\/1471-2202-8-S2-P193<\/li>\n<\/ol>\n<p><b>&nbsp;(iii) Abstracts &amp; Abstract-reviewed papers<\/b><\/p>\n<ol>\n<li>M. Vaidya, K. Balasubramanian, J. Southerland, A. Eleryan, I. Badreldin, A. Fagg, K. Oweiss, N. Hatsopoulos &#8220;Emergence of coordinated reach-to-grasp behavior in a long-term BMI experiment,&#8221; in Society for Neuroscience, Washington DC, 2014.<\/li>\n<li>E. K. Purcell, J. Daly, M. Mansy, A. Mohebi, M. Zoratti, K. Oweiss, (2013) \u201cOptogenetic modulation of vibrissal somatosensory cortex via motor and thalamic inputs,\u201d <i>Society for Neuroscience Abstracts,<\/i> 167.12\/PP7<\/li>\n<li>F. Asgarian, M. Hashemi, W. Cartagena, S. Hao, K. Oweiss, (2013) \u201cA wireless neural recording system for freely behaving primates,\u201d <i>Society for Neuroscience Abstracts,<\/i> 567.06\/GGG33<\/li>\n<li>S. El-Dawlatly, M. Aghagolzadeh, A. Mohebi, K. Oweiss, (2012) &#8220;Beyond single neuron responses: Networks capture ensemble coding properties and re-organization in cortex &#8220;. <i>Society for Neuroscience Abstracts<\/i><i>. <\/i>pp. 413.07<\/li>\n<li>A. Mohebi, K. Oweiss, (2012) &#8220;Ensemble dynamics underlying sensorimotor integration in the rat medial PreFrontal Cortex (mPFC) &#8220;. <i>Society for Neuroscience Abstracts<\/i><i>. <\/i>pp. 597.18.<\/li>\n<li>J. Daly, A. Eleryan and K. Oweiss (2012) &#8220;JAVA Neural Circuit Simulator (JiNCS): A flexible, open-source framework for simulating networks of spiking cells with various stimulation modalities&#8221;. <i>Society for Neuroscience Abstracts<\/i><i>. <\/i>pp. 712.16.<\/li>\n<li>A. Tomaswick, K. Takahashi, M. Saleh, N. Hatsopoulos, K. Oweiss, (2012) &#8220;Graph model analysis of monkey arm kinematics during reach-to-grasp &#8220;. <i>Society for Neuroscience Abstracts<\/i><i>.<\/i> pp. 584.17.<\/li>\n<li>A. Eleryan A. Dickey, N. Hatsopoulos, K. Oweiss, (2012) &#8220;Stability analysis of chronically recorded multiple single unit activity in the non-human primate &#8220;. <i>Society for Neuroscience<\/i> <i>Abstracts<\/i><i>. <\/i>pp. 277.08.<\/li>\n<li>F. Asgarian Farzad , M. Kiani, M. Aghagolzadeh, A. Tomaswick, M. Ghovanloo, K. Oweiss, (2012) &#8220;A wireless implantable neural interface system for intracortical neural recording in freely behaving subjects &#8221; <i>Society for Neuroscience Abstracts<\/i><i>. <\/i>pp. 277.18<\/li>\n<li>A. Eleryan, A. Dickey, N. Hatsopoulos, K. Oweiss, (2012) &#8220;Stability Analysis of Chronically Recorded Neural Activity in the Non-Human Primate &#8221; <i>Neural Interfaces Conference<\/i> <i>Proceedings<\/i><\/li>\n<li><i>A.<\/i> Mohebi, J. Cardin, K. Oweiss, (2012) &#8220;A cell-type-specific population analysis of optogenetically evoked response in primary visual cortex &#8221; <i>Computational and Systems Neuroscience<\/i><i> <\/i>Vol. 1. pp. 154.<\/li>\n<li>A. Mohebi, K. Oweiss, (2011) \u201cNeural ensemble correlates of working memory in the rat medial prefrontal cortex,\u201d <i>Society for Neuroscience Abstracts<\/i>, No 833.08<\/li>\n<li>A. Mohebi, J. Cardin, K. Oweiss, (2011) \u201cA dynamic bayesian network model for up\/down states of spontaneous and optogenetically evoked activity in the primary visual cortex,\u201d No 626.21<\/li>\n<li>A. Aghagolzadeh, J. Cardin, K. Oweiss, (2011) \u201cA graphical maximum entropy model for predicting stimulus-driven spatiotemporal spiking patterns of V1 cortical neurons,\u201d No. 626.15<\/li>\n<li>J. Daly, J. Liu, H.Khalil, K. Oweiss, \u201cNeural feedback for instantaneous spatiotemporal modulation of afferent pathways in bi-directional brain machine interfaces\u201d No. 280.21, Nov 2011<\/li>\n<li>S. Eldawalty, K. Oweiss, (2011) \u201cInferring stimulus-specific network dynamics associated with experience-dependent plasticity in the rat somatosensory cortex following sensory deprivation,\u201d No 74.22, Nov 2011<\/li>\n<li>S. Eldawalty, M. Aghagolzadeh &amp; K. Oweiss, (Invited) (2011) \u201cProbabilistic graphical models of functional and effective neuronal connectivity\u201d <i>Joint Statistical Meeting Society<\/i><\/li>\n<li>S. Eldawlatly, K. Oweiss, (2011) \u201cStimulus-specific neuronal circuits in the rat somatosensory cortex<i>,<\/i>\u201d<i>Society for Neuroscience Abstracts<\/i>, No 782.19<\/li>\n<li>J. Liu, H.Khalil, K. Oweiss, (2010) \u201cFeedback Control of the Spatiotemporal Firing Patterns of a Basal Ganglia Microcircuit Model,\u201d<i> Society for Neuroscience Abstracts<\/i>, No 820.18<\/li>\n<li>M. Aghagolzadeh, F. Zhang, K. Oweiss, (2010) \u201cAn implantable architecture for real time unsupervised spike sorting in cortically-controlled brain machine interfaces\u201d <i>Society for Neuroscience Abstracts<\/i>, No 85.10<\/li>\n<li>S. Eldawlatly, K. Oweiss, (2010) \u201cCausal Networks in the Rat Barrel Cortex Provide a Signature of Stimulus Encoding,\u201d <i>39<\/i><i><sup>th<\/sup><\/i><i> Neural Interfaces Conference<\/i>, Long Beach, CA<\/li>\n<li>F. Zhang, M. Aghagolzadeh, A. Kamboh, M. Kiani, A. Mason, M. Ghovanloo, and K. Oweiss, , (2010) \u201cA Wireless and Reconfigurable Compressive Sensing System for Neural Recording in Cortical Brain Machine Interfaces,\u201d <i>39<\/i><i><sup>th<\/sup><\/i><i> Neural Interfaces Conference<\/i>, Long Beach, CA<\/li>\n<li>M. Aghagolzadeh, F. Zhang, K. Oweiss, (2010) \u201cAn Implantable VLSI Architecture for Real Time Spike Sorting,\u201d <i>39<\/i><i><sup>th<\/sup><\/i><i> Neural Interfaces Conference<\/i>, Long Beach, CA<\/li>\n<li>J. Liu, H.Khalil, K. Oweiss, (2010) \u201cFeedback Control of the Spatiotemporal Firing Pattern of a Basal Ganglia Microcircuit Model,\u201d <i>39<\/i><i><sup>th<\/sup><\/i><i> Neural Interfaces Conference<\/i>, Long Beach, CA<\/li>\n<li>K.Y. Kwon, K. Oweiss, (2010) \u201cNeuroQuest: A Comprehensive tool for Large Scale Neural Data Analysis,\u201d <i>39<\/i><i><sup>th<\/sup><\/i><i> <\/i><i>Neural Interfaces Conference<\/i>, Long Beach, CA<\/li>\n<li>S. Eldawlatly, S. Fujisawa, G. Buzs\u00e1ki, K. Oweiss, (2009) <sup>&nbsp;<\/sup>&#8220;Identifying position-specific functional networks in the rat medial prefrontal cortex,&#8221; <i>Society for Neuroscience Abstracts<\/i>, No192.9<\/li>\n<li>M. Aghagolzadeh , S. Eldawlatly, K. Oweiss, (2009) &#8220;The role of higher-order interactions between cortical neurons in a model of sensorimotor integration,&#8221; <i>Society for Neuroscience Abstracts<\/i>,&nbsp;No789.11.<\/li>\n<li>K. Y. Kwon, S. Eldawlatly,&nbsp;K. Oweiss, (2009) &#8220;NeuroQuest: A comprehensive tool for large scale neural signal processing and analysis,&#8221; <i>Society for Neuroscience Abstracts<\/i>,&nbsp;No 790.10<\/li>\n<li>F. T. Abu-Nimeh, M. Aghagolzadeh, K. Oweiss, (2009) \u201cReal-time, on-chip spike&nbsp;sorting and firing rate estimation for cortically-controlled Brain&nbsp;Machine Interface applications,\u201d <i>Society for Neuroscience Abstracts<\/i>,&nbsp;No 181.14<\/li>\n<li>&nbsp;M. Aghagolzadeh, K. Oweiss, (2008) \u201cIdentification and tracking of functional plasticity in motor neuronal ensembles improves the performance of population decoders,\u201d <i>Society for Neuroscience Abstracts<\/i>, No 862.19<\/li>\n<li>S. El-Dawlatly, K. Oweiss, (2008) \u201cA two-stage paradigm for reconstructing functional neuronal circuits from spike train ensembles,\u201d <i>Society for Neuroscience Abstracts<\/i>, No 862.15<\/li>\n<li>S. Eldawlatly, R. Jin,&nbsp; K. Oweiss, (2008) \u201cA Two-Stage Paradigm for Reconstructing Functional Neuronal Circuits\u201d <i>4<\/i><i><sup>th<\/sup><\/i><i> Int. workshop Statistical Analysis of Neural Data (SAND)<\/i>, Pittsburgh<\/li>\n<li>M. Shetliffe, S. El-Dawlatly, K. Oweiss, (2007) \u201cMultiscale compressed sensing of neuronal response properties for brain machine interfaces,\u201d <i>Society for Neuroscience Abstracts<\/i>, No 770.2<\/li>\n<li>K. Oweiss, R. Jin, Y. Suhail, F. Chen(2006) <sup>\u201c<\/sup>Identifying functionally interdependent neurons from multielectrode array recordings in local and global network contexts\u201d <i>in<\/i><i> Proc. 5<\/i><i><sup>th<\/sup><\/i><i> Substrate-integrated microelectrode Arrays<\/i>, pp.60-63, Reutlingen, Germany<\/li>\n<li>K. Oweiss, R. Jin, Y. Suhail, F. Chen (2006) \u201d Identifying neuronal assemblies with local and global connectivity with spectral clustering in scale space\u201d <i>in <\/i><i>Proc. of 16<\/i><i><sup>th<\/sup><\/i><i>&nbsp; Computational Neuroscience (CNS)<\/i>, Edinburgh, UK,<\/li>\n<li>K. Oweiss, (2006) \u201cCompressed sensing of large-scale ensemble neural activity with resource-constrained cortical implants,\u201d <i>Society for Neuroscience Abstracts,<\/i> No 13.11<\/li>\n<li>K. Oweiss, R. Jin, F. Chen, Y. Suhail, (2006) \u201cIdentification and tracking of spatial and temporal connectivity of large scale neuronal ensembles from multielectrode recorded mixtures\u201d, <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>K. Thomson, S. Chrispell, K. Oweiss, (2006) \u201cCompressed Sensing of Large-Scale Cortical Neural Activity,\u201d <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>K. Oweiss, (2005) \u201cA Systems Approach for Data Compression and Latency Reduction in Advanced Brain Machine Interfaces,\u201d <i>Society for Neuroscience Abstracts<\/i>, No 707.13<\/li>\n<li>K. Thomson, K. Oweiss (2005) \u201cSystem and Architecture Design for Implantable Neuroprosthetic Devices,\u201d <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>Y. Suhail, K. Thomson, K. Oweiss (2005) \u201cA Systems Approach for Data Compression and Latency Reduction in Cortically Controlled Brain Machine Interfaces,\u201d <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>K. Oweiss (2005) \u201cAugmenting Information Channels in Cochlear Implants under Adverse Conditions,\u201d <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>Y. Suhail, K. Thomson, L. Slifka, A. Thompson, R. Jin, K. Oweiss (2004) \u201cMultiscale Processing and Analysis of High-Density Electrode Array Neural Recordings,\u201d <i>NIH Neural Interface Workshop<\/i>, Bethesda, MD<\/li>\n<li>K. Oweiss, (2002) \u201cNon-parametric detection of unknown correlated multichannel transients with sequential and block hypothesis testing in multiresolution spaces,\u201d 2<sup>nd<\/sup> <i>IEEE Sensor Array &amp; Multichannel Signal Processing wshp.<\/i>,(I):375-378<\/li>\n<li>K. Oweiss, D.J. Anderson, (2000) \u201cNeural Channel Identification of&nbsp;Multichannel Neural Recordings using Multiresolution Analysis,\u201d <i>Annals of the&nbsp;22<\/i><sup>nd<\/sup><i> Biomedical Engineering Society<\/i>, vol. 28 (Suppl. 1): S-116<\/li>\n<\/ol>\n","protected":false},"excerpt":{"rendered":"<p>Refereed Journal Publications Ethan S Benevides, Prajwal P Thakre, Sabhya Rana, Michael D Sunshine, Victoria N Jensen, Karim Oweiss, David D Fuller (2025) &#8220;Chemogenetic stimulation of phrenic motor output and diaphragm activity&#8221;, eLife, Vol 13, doi: 10.7554\/eLife.97846.3 Shuo-Yen Chueh, Yuanxin Chen, Narayan Subramanian, Benjamin Goolsby, Phillip Navarro, Karim Oweiss (2025) &#8220;Metaplasticity and continual learning: mechanisms [&hellip;]<\/p>\n","protected":false},"author":1371,"featured_media":0,"parent":0,"menu_order":0,"comment_status":"closed","ping_status":"closed","template":"page-templates\/page-sidebar-none.php","meta":{"_acf_changed":false,"inline_featured_image":false,"featured_post":"","footnotes":"","_links_to":"","_links_to_target":""},"class_list":["post-39","page","type-page","status-publish","hentry"],"acf":[],"_links":{"self":[{"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/pages\/39","targetHints":{"allow":["GET"]}}],"collection":[{"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/pages"}],"about":[{"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/types\/page"}],"author":[{"embeddable":true,"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/users\/1371"}],"replies":[{"embeddable":true,"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/comments?post=39"}],"version-history":[{"count":0,"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/pages\/39\/revisions"}],"wp:attachment":[{"href":"https:\/\/faculty.eng.ufl.edu\/oweisslab\/wp-json\/wp\/v2\/media?parent=39"}],"curies":[{"name":"wp","href":"https:\/\/api.w.org\/{rel}","templated":true}]}}