Welcome! We study how the brain generates a stable sense of where we are in space, how it enables us to move and interact with the world, and how these functions break down in disease states. We use modern tools to understand brain mechanisms that control eye movements and interpret balance and motion signals. Our work combines brain recordings, computational modeling, and noninvasive techniques for mapping brain functions in humans.
- Neural mechanisms of spatial orientation
- Eye movement control and interaction with balance and spatial orientation
- Functional mapping of neural networks for perception of spatial orientation
- Neural mechanisms of visual stability
- Neural mechanisms of dizziness, imbalance, and spatial disorientation in disease sates
- Diagnostic tools for accurate clinical assessment of eye movement and vestibular functions
- Diagnostic tool for accurate clinical assessment of balance and posture
- Psychophysical tools for measurement of perceived head, eye and spatial orientation
- Topographic-guided transcranial magnetic stimulation
- Video Ocular Counter-Roll (vOCR)
- Video method for measurement of balance/posture
- Test of visuospatial memory
- Integrated Rotational Motion and Eye Movement Recording Platforms
- Dizzy Exam Guide