NeuroAccess Platform
Advanced neuro-aesthetic accessibility analysis powered by biopunk visualization technology. Experience digital interfaces through different neurological perspectives.
Project Overview
Challenge
Traditional accessibility testing tools fail to capture the lived experience of neurodivergent users. Designers need a way to truly understand how their interfaces affect users with different neurological conditions.
Solution
A comprehensive platform that simulates various neurological perspectives in real-time, allowing designers and developers to experience their interfaces through the lens of neurodiversity.
Platform Features
Dyslexia Simulation
Real-time letter and word reversal simulation to understand reading challenges faced by dyslexic users.
- • Letter reversal patterns
- • Word scrambling effects
- • Reading flow disruption
Color Vision Deficiency
Comprehensive color blindness simulation including Protanopia, Deuteranopia, and Tritanopia.
- • Multiple CVD types
- • Severity adjustments
- • Contrast analysis
Motor Control Simulation
Hand tremor intensity simulation to test interface usability for users with motor control challenges.
- • Adjustable tremor intensity
- • Click accuracy testing
- • Touch target analysis
Neuro-Aesthetic Design Principles
Cognitive Load Reduction
Minimize mental effort through strategic information hierarchy and progressive disclosure.
Sensory Optimization
Color temperatures and contrast ratios optimized for anxiety reduction and focus enhancement.
Attention Regulation
ADHD-friendly design with controlled animation timing and focus management.
Pattern Recognition
Consistent visual patterns that support autism spectrum processing preferences.
Memory Support
Visual cues and contextual information to support working memory limitations.
Stress Reduction
Calming color palettes and smooth transitions to minimize anxiety triggers.
Research Impact
Research Insights
Neuroscience Foundation
Our design principles are grounded in peer-reviewed neuroscience research, including studies on visual processing differences in autism spectrum conditions, attention regulation in ADHD, and reading pattern variations in dyslexia.
Biometric Validation
Interface effectiveness was validated using EEG measurements, eye-tracking data, and galvanic skin response to objectively measure cognitive load, attention patterns, and stress responses across different user groups.
Inclusive Design Impact
The platform demonstrates that designing for neurodiversity benefits all users, with neurotypical participants showing 34% faster task completion and 28% higher satisfaction scores when using neuro-optimized interfaces.
Explore the Design System
Dive deeper into the complete NeuroAccess Platform design system and research documentation.
View Live NeuroAccess Platform