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Gait Cycle, Locomotion Kinetics, and Gait Analysis Simulator

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Gait Cycle, Locomotion Kinetics, and Gait Analysis Simulator
3D Biomechanics Lab: Gait Cycle, Locomotion Kinetics, and Gait Analysis Simulator

Professional Gait Analysis Simulator

Developed By : Ir. MD Nursyazwi

Advanced Biomechanical Computing for Human Locomotion and Kinetic Performance.

Configuration Module

Biometric Input Parameters

Impacts Gravitational Force Calculation
Determines Kinetic Energy and Froude Ratio
Real-Time Visualization

3D Locomotion Engine

AWAITING SIGNAL
FR: 0.00
Analytics Report

Kinetic Performance Summary

Peak Hip Torque

0 Nm

Metabolic Cost

0.0 W/kg

Energy per Cycle

0 J

Stability Score

98%

Simulation Pending

Awaiting System Data

Biomechanical Insight

Please initiate the locomotion analysis to generate a unique kinetic profile based on your parameters.

Engineered Recommendations
  • • Configure settings and click start.
Kinetics Visualization

Mechanical Power Distribution

This curve represents the metabolic energy required throughout one complete gait cycle.

Principles of Modern Biomechanics

The human gait cycle is a sophisticated energy-exchange mechanism. It is traditionally divided into the stance phase, where the foot is in contact with the ground, and the swing phase, where the limb moves forward. Efficient walking relies on the Pendulum Model, minimizing muscular work by converting potential energy into forward momentum.

Kinetic efficiency is measured through Torque and Power. Torque represents the rotational force applied by muscles around a joint, while Power measures the rate at which work is performed. When walking velocity increases, the demand on joint stabilization rises exponentially, requiring precise neuromuscular coordination.

The Froude Number is a dimensionless ratio used to predict locomotion patterns. A value below 0.5 is typical for stable walking. Values approaching or exceeding 0.5 indicate a transition toward running, where the gravitational force is no longer sufficient to maintain steady contact with the surface.

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Location: Sandakan, Sabah, Malaysia

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