The Internet of Human™
The human body as the platform. Textiles as the interface. Our textile computing platform transforms everyday garments into continuous, bidirectional deep-tech interfaces. By integrating smart textile technology directly into the yarn, we unlock clinical-grade data acquisition without obtrusive hardware.
Building Block of Textile Computing
The invisible circulatory system of the garment. We engineer the core conductive textile materials that route power and data robustly, maintaining the natural hand-feel and stretchability of standard apparel.
Sensing Layer
The foundation of our e-textile sensing architecture. We convert biometric signals directly from the skin into high-fidelity digital datasets, capturing complete physiological, neurological, and biomechanical profiles continuously.
Actuation Layer
Closing the loop with bi-directional feedback. Our platform moves beyond data collection to deliver targeted physiological interventions directly to the body via integrated textile neurostimulation and thermal networks.
ECG Sensing
Human Signal Digitization
Through Textile Sensors
Seamlessly captures cardiac biopotential signals through textile-embedded sensors, enabling continuous, real-time body data acquisition.
Utilizes advanced knitted dry electrodes to achieve clear cardiac monitoring without traditional, rigid setups.
Core Applications
Healthcare & Clinical Monitoring
Designed for continuous remote patient monitoring and medical health assessments.
Chronic Disease Management
Provides long-term tracking to optimize patient care and oversee ongoing cardiac conditions.
Post-Acute Care
Serves as a primary tool for "hospital-at-home" frameworks, ensuring patient safety during transitional recovery periods.
Pressure Sensing
The "Invisible Interface"
for 3D Body Contours
A textile-based, flexible pressure-sensing technology engineered to conform naturally to complex 3D body contours. Fully washable, biocompatible, robust for daily use, and highly scalable across multiple form factors.
Unlike traditional flexible PCB sensors that rely on non-breathable plastic films—which often cause sweating and skin irritation—this technology features superior breathability, stretch, durability, and comfort.
Core Applications
Plantar Pressure Mapping
Maps foot pressure distribution for gait analysis, orthotics development, diabetic foot ulcer prevention, and sports injury prevention.
Interface Loading & Seating
Monitors critical pressure points at the contact interface between the body and assistive objects. Delivers continuous pressure mapping for sleep surfaces to prevent pressure ulcers.
Smart Automotive Seating & Athletics
Integrates directly into mobility infrastructure to support occupant monitoring and driver fatigue detection. Tailored for real-time athletic performance optimization.
Neurostimulation (NMES)
Closed-Loop Interaction
and Responsive Actuation
Operates within a responsive actuation layer where textiles don't just sense data—they actively respond to the human body. Features dry electrodes seamlessly integrated within a biocompatible, washable, and flexible garment infrastructure that replaces rigid PCB wiring.
Supports a tailorable 2-channel system capable of delivering both Neuromuscular Electrical Stimulation (NMES) and Transcutaneous Electrical Nerve Stimulation (TENS).
Strategic & Clinical Impact
VTE Prophylaxis
Targets Venous Thromboembolism (VTE), Deep Vein Thrombosis (DVT), and Pulmonary Embolism (PE).
Proven Cost-Savings
Institutional B2B placement saves an estimated $113 per surgical patient compared to treating a VTE event.
Rehabilitation & Therapy
Acts as a portable therapeutic platform for stroke recovery, MSK rehab, and gait retraining.
Regulatory Status
Currently in Phase 3 of the regulatory process, advancing toward Class II 510(k) path clearance.
Heating Garment
Thermal Actuation &
Precise Thermoregulation
A responsive textile layer providing targeted heating, active thermoregulation, and precise temperature measurement/control. Made from a highly flexible, biocompatible, and washable fabric that can be adapted into diverse form factors.
Knitted heating elements are integrated directly into the garments, produced completely ready right off the machine for highly scalable, cost-effective manufacturing.
Target Markets & Uses
EMG Sensing
Direct Signal Capture
for Muscle Activation
Digitizes human performance by using a knitted dry electrode garment to capture muscle activation signals directly from the body. Built to support completely tailorable EMG channel counts to perform active, real-time muscle measurements.
Biocompatible, wash-resistant, and easily configured into multiple physical form factors (such as arm bands or calf sleeves).
Core Applications
Sports & Human Performance
Tracks precise biomechanics, monitors physical fatigue, optimizes muscle recovery, and aids in injury prevention.
Neurological Rehabilitation
Crucial for stroke and traumatic event recovery, addressing long-term motor deficits.
Prosthetics Control
Acts as a seamless control interface for advanced prosthetics.
Next-Gen Gaming & AR/VR
Functions as an intentional controller within the rapidly expanding EMG gaming segment.
Additional Components
Explore other vital parts of our textile computing ecosystem.
PEDOT:PSS Polymer Platform
A highly flexible, biocompatible conductive polymer tailored for textile integration. This proprietary formulation serves as the critical conductive layer for both our sensing and actuation systems.
Stretchable Cables
Highly elastic insulated wiring architectures built in partnership with Nanoleq for robust dynamic strain routing.
EEG Sensing
Supports multi-channel EEG monitoring for brain-computer interfaces. Active neural wave measurements with high fidelity. Made of a biocompatible, and washable garment.
Partner with
MYANTX
Whether you need end-to-end product development, custom manufacturing, or advanced materials R&D, our engineering team is ready to bring your application to life.
Global Footprint
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