Dissertations

Kuzdeba, S. A. (2019). CHARACTERISTIC TIME COURSES OF ELECTROCORTICOGRAPHIC SIGNALS DURING SPEECH. Boston University Thesis. Boston, MA: Boston University.

Torene, S. B. (2016). LEARNING AND ADAPTATION IN BRAIN MACHINE INTERFACESBoston University Thesis. Boston, MA: Boston University.

Galbraith, B.V. (2016) A BRAIN-MACHINE INTERFACE FOR ASSISTIVE ROBOTIC CONTROLBoston University Thesis. Boston, MA: Boston University.

Stephen, E.P. (2015). CHARACTERIZING DYNAMICALLY EVOLVING FUNCTIONAL NETWORKS IN HUMANS WITH APPLICATION TO SPEECH. Boston University Thesis. Boston, MA: Boston University.

Lorenz, S. (2013). DEVELOPMENT OF A PRACTICAL AND MOBILE BRAIN-­‐COMPUTER COMMUNICATION DEVICE FOR PROFOUNDLY PARALYZED INDIVIDUALSBoston University Thesis. Boston, MA: Boston University.

Segawa, J.A. (2013). NEURAL REPRESENTATIONS USED BY BRAIN REGIONS UNDERLYING SPEECH PRODUCTION.  Boston University Thesis. Boston, MA: Boston University.

Golfinopoulos, E. (2013). FROM PROSODIC STRUCTURE TO ACOUSTIC SALIENCY: AN fMRI INVESTIGATION OF SPEECH RATE, CLARITY, AND EMPHASIS. Boston University Thesis. Boston, MA: Boston University.

Civier, O. (2010). COMPUTATIONAL MODELING OF THE NEURAL SUBSTRATES OF STUTTERING AND INDUCED FLUENCY. Boston University Thesis. Boston, MA: Boston University.

Brumberg, J. S. (2008).  AN ELECTROPHYSIOLOGICAL INVESTIGATION OF HUMAN MOTOR CORTEX AND ITS APPLICATION TO SPEECH RESTORATION. Boston University Thesis. Boston, MA: Boston University.

Tourville, J.A. (2008).  NEURAL MECHANISMS UNDERLYING AUDITORY FEEDBACK CONTROL OF SPEECH. Boston University Thesis. Boston, MA: Boston University.

Bohland, J. W. (2007).  NEUROIMAGING AND COMPUTATIONAL MODELING OF SYLLABLE SEQUENCE PRODUCTION. Boston University Thesis. Boston, MA: Boston University.

Nieto-Castanon, A. (2004).  AN INVESTIGATION OF ARTICULATORY-ACOUSTIC RELATIONSHIPS IN SPEECH PRODUCTION. Boston University Thesis. Boston, MA: Boston University.

Ghosh, S.S. (2004). UNDERSTANDING CORTICAL AND CEREBELLAR CONTRIBUTIONS TO SPEECH PRODUCTION THROUGH MODELING AND FUNCTIONAL IMAGING. Boston University Thesis. Boston, MA: Boston University.