This video continues to discuss sound localization, including neural processing in the lateral superior olive and inferior colliculus. It also covers the auditory pathways in Barn Owls.
This video discusses echolocation by bats and the cortical processing of language.
This video introduces the auditory cortex, including its physiology and role in sound localization. Also discussed is the pitch area.
The video describes visually guided eye movements, including saccades and smooth pursuit movements. Also covered are the extraocular muscles, the cranial nerves and the parts of the brain required for these movements.
This video reviews important topics from the visual and oculomotor systems lectures.
This lecture demonstrates various illusions and analyzes theories for their explanation. Additionally, the instructor discusses the requirements of visual prostheses and the current state of research on them.
This video covers the features and causes of hearing loss as well as cochlear implants and features a discussion with a cochlear implant user.
This video covers the auditory brainstem and reflex pathway components, including the olivocochlear neurons and middle ear muscles.
This video covers sound localization using binaural cues, including the psychophysics and neural circuits.
This video covers saccadic eye movements and the role of the superior colliculus and cortical regions on those movements. The video includes a discussion of the effect of lesions and certain pharmacological agents on saccadic eye movements.
This video describes the physical characteristics of sound and the roles of the three components of the auditory periphery.
This video describes the anatomy of the cochlea, inner and outer hair cells as well as OHC electromotility and otoacoustic emissions.
This video covers the auditory nerves and frequency resolution, including tuning and tonotopy, frequency discrimination and phase locking.
This video covers the anatomy and physiology of the auditory central nervous system and the cochlear nucleus and introduces auditory implants.
This lecture describes the features of and major theories behind color vision. It covers how color is processed in the retina, LGN and cortex as well as color blindness and adaptation.
This lecture describes form perception, including Gestalt, three major theories and properties of spatial frequency analysis. Also covered are cortical areas important to intermediate vision, subjective contours and facial recognition.
This video covers motion perception,including the role of motion parallax. The instructor also discusses structure from motion, apparent motion, brightness masking and optokinetic nystagmus.
This video covers the basic layout and components of the visual system, including retinal ganglion cells, photoreceptors, biopolar, horizontal and amacrine cells.
This lecture describes the ON and OFF retinal ganglion cells, retinal connections and the effect of a glutamate analog called 2-amino-4-phosphonobutyrate (APB) on vision.
This lecture covers depth perception, including mechanisms used to analyze depth such as the effects of lesions in V4 or MT, stereo-blindness, parallax, shading and perspective. It also describes how depth is processed by cortical structures.