An intelligent orthopedic insole integrated into a sock-based system for objective gait and posture monitoring.
LOOMIS is an intelligent orthopedic insole integrated into a technical sock for orthopedic and neurological patients.
The insole continuously measures load distribution and movement dynamics during daily activities.
Embedded AI algorithms analyze gait patterns, postural adaptations, and load asymmetries, supporting objective assessment in both orthopedic and neurological conditions.
The technical sock ensures precise sensor positioning, comfort, and reliable use in real-life settings.
A fully integrated wearable platform
LOOMIS combines an intelligent insole and a technical sock within a low-power wearable architecture.
Dynamic, IMU-aware calibration enables accurate load and gait assessment even in atypical or impaired walking patterns.
Clinically relevant metrics such as symmetry and compensation are derived from fused sensor data, enabling continuous monitoring beyond the clinic.
From laboratory measurements to real-life monitoring
Traditional gait and load analysis relies on laboratory-based force plates or optical motion capture, limiting assessment to short and artificial conditions.
Current wearable systems often capture isolated parameters without contextual calibration.
LOOMIS introduces an integrated, medical-grade sock and insole system with dynamic calibration and trunk integration, enabling continuous gait and posture assessment in daily life and rehabilitation workflows.
Upper-Body & Postural Sensing
Miniaturized IMU-based inertial sensors, applied as discreet adhesive patches on the shoulders or trunk, extend monitoring beyond the foot.
They capture posture, trunk control, and compensatory upper-body movements, enabling a complete analysis of overall body posture.