Dissertation: Biologically encoded augmented reality
This is a stick figure. The world we perceive around us is an incomplete image, of not only what we’ve built, but the inherent potentials
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Category: Biologically encoded augmented reality
Dissertation and graduate work at MIT
Excerpts: peripheral semantics (codex overview)
This research demonstrates a foundational approach to peripheral semantic information delivery capable of conveying highly complex symbols well beyond the established mean, using motion-modulated stimuli within a series of small, static apertures in far periphery ( > 50°).
Excerpts: increasing environmental complexity, human subject trials
How detectable are far peripheral semantic cues in increasingly dynamic environments? Results show rapid adaptation and high detection accuracy.
Excerpts: codex metrics, results in controlled environments
Metrics of symbol recognition speed and accuracy in a controlled environment, with codex parameterization using motion energy analysis
Excerpts: stimulus preparation
Adapting stimuli to dynamic environments One of the greatest challenges of adapting motion-modulated semantics to real-world environments is maintaining requisite conditions for effects to occur.
Outfitting real-time cockpit environment with adaptive perceptual skins
Information floods the center of our visual field and often saturates the focus of our attention, yet there are parallel channels in the visual system
Synthetic shape motion
Our visual realities are flooded with complex and robust natural scenes. New findings in curvature estimation illustrate where our expectations of reality can break down
Atmopragmascope: steam-driven volumetric display
We are surrounded by displays and technologies whose mechanisms are hidden from view. This work was an exploration of revealing the underlying architecture of not
Sensing in biological fidelity: biomimetics for cybernetic integration
Biomimetic systems architecture engineering: prototypes Quantizing visual perception as an expression of experience is referentially viewed as a modular function, temporally sequenced within multiple sensory
Invisible Ink
The eye is a highly sensitive and programmable array of sensors. By presenting stimuli to discrete regions of the retina we encode neural pathways with
Sensory infidelity modulated through discordant input
The following sequence presents a demonstration of the interlinkages of visual and auditory sensory processing. The video consists of a repeated, one-second clip of a
7-channel mobile, self-tuning, EEG reduction to practice
Publications pending Please log in to view protected content:
Neural mismatch model for adaptive sensory remapping
Proprioceptive feedback systems for kinetosis (motion sickness) treatment and prevention Rather than treating the environment, the automobile and the various independent mechanisms of human biology
© 2020 Matthew Everett Lawson