Sensing how people perceive, feel, and respond in XR.
My research connects extended reality with the human body — using physiological and affective signals to make immersive systems more comfortable, more present, and more empathic.
Physiological & neurophysiological signals in XR
Using heart rate, EEG, and other bodily signals to understand and adapt immersive experiences.
Presence & immersion
Measuring and differentiating the felt sense of “being there”, including from physiological data.
Cybersickness & visual discomfort
Characterising and mitigating motion sickness and visual discomfort in immersive systems.
Empathic & affective computing
Sharing emotional and physiological states across users to build connection and empathy.
Adaptive XR training systems
Systems that sense a user’s state and adapt content, difficulty, or guidance in real time.
AR visualization & perception
Occlusion handling, “X-ray vision”, and depth perception for augmented-reality interfaces.
- 3,555+
- Citations
- 31
- h-index
- 47
- i10-index
View all on Google Scholar ↗ Updated May 2026
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