Sensor Suit

Inertial Motion Capture System

Advanced wearable technology featuring full-body inertial sensor network for precise motion capture and verification. Academic research project implementing distributed sensor fusion and real-time biomechanical analysis.

Explore Features
Motion Capture
Real-time Analysis
Wireless Network
2014
Development Year
7+
Sensor Nodes
360°
Motion Coverage
Real-time
Processing

System Features

Advanced wearable technology for comprehensive motion analysis

Wearable Design

Ergonomic sensor placement for natural movement without interference, designed for extended wear and comfort during motion capture sessions.

Inertial Measurement

Multi-axis accelerometers and gyroscopes providing precise orientation, acceleration, and angular velocity data for each body segment.

Distributed Network

Wireless sensor network architecture enabling synchronized data collection from multiple body-mounted inertial measurement units.

Motion Verification

Advanced algorithms for motion validation, gesture recognition, and biomechanical analysis with real-time feedback capabilities.

Data Analytics

Comprehensive motion data processing including joint angle calculation, velocity analysis, and movement pattern recognition.

Real-time Monitoring

Live motion visualization and analysis with wireless data streaming for immediate feedback and performance assessment.

Technical Architecture

Sophisticated sensor fusion and wireless communication system

Sensor Layer

Distributed IMU sensors with 9-DOF measurement capabilities including accelerometer, gyroscope, and magnetometer data fusion.

9-DOF IMU High Frequency Sampling Low Power Design

Communication Layer

Wireless networking protocol for synchronized data transmission from body-mounted sensors to central processing unit.

Time Synchronization Error Correction Mesh Network

Processing Layer

Advanced signal processing algorithms for sensor fusion, motion reconstruction, and biomechanical analysis.

Kalman Filtering Quaternion Math Real-time Processing

Application Layer

User interface for motion visualization, data analysis, and system configuration with real-time feedback display.

3D Visualization Data Logging Analysis Tools

Applications & Use Cases

Versatile motion capture system for research and development

Sports Analytics

Performance analysis for athletes with detailed biomechanical feedback and movement optimization recommendations.

Rehabilitation

Physical therapy monitoring and progress tracking for patients recovering from injuries or mobility impairments.

Academic Research

Human movement studies and biomechanical research with precise data collection and analysis capabilities.

Gaming & VR

Motion capture for gaming applications and virtual reality environments with full-body tracking.