The Gait Pressure Analysis System is a professional instrument used to measure and analyze plantar pressure distribution, gait parameters and dynamic walking patterns. 

It records the force of the foot through high-precision sensors and provides detailed biomechanical data. It is widely used in medicine, rehabilitation, sports science and orthopedic customization.

Plant Pressure Distribution System

1. Working Principle

The core working principle of the Gait Pressure Analysis System is based on pressure sensing technology. The measurement and analysis are mainly completed through the following steps:

(1) Data Acquisition

The Gait Pressure Analysis System usually consists of a pressure sensing pad (Pressure Plate) or a wearable plantar pressure insole (In-shoe Pressure Sensor). The device integrates high-sensitivity sensors such as capacitive, piezoresistive or piezoelectric pressure sensors to detect the contact pressure of the sole of the foot.

Static measurement: Measure the plantar force distribution when standing, evaluate the arch state, body center of gravity distribution, etc.

Dynamic measurement: Measure the plantar force changes when walking or running, and analyze gait characteristics.

(2) Data transmission

The data collected by the sensor is transmitted to a computer or mobile terminal via wired or wireless means (such as Bluetooth, Wi-Fi) for real-time analysis.

(3) Data processing and analysis

Gait analysis software converts the collected pressure data into visual information, such as:

Pressure Map

Gait Cycle

Stride & Step Analysis

Center of Pressure (CoP)

These data can be used for gait abnormality diagnosis, sports injury assessment and orthopedic insole design, etc.

2. Main functions

(1) Analysis of plantar pressure distribution

Evaluate the force conditions of different areas of the plantar (forefoot, midfoot, heel)

Identify abnormal arches, such as flat feet (low arches) and high arches

Diagnose plantar fasciitis, diabetic foot and other foot diseases

(2) Gait analysis and abnormality detection

Monitor key parameters such as gait cycle, step length, step frequency, and step speed

Identify abnormal gait, such as inversion, eversion, and gait asymmetry

Evaluate the gait characteristics of patients with neurological diseases (Parkinson's disease, post-stroke rehabilitation)

(3) Sports injury assessment and sports performance optimization

Analyze the force pattern of the plantar during running, walking and other sports to prevent sports injuries

Evaluate the gait efficiency of athletes and improve sports performance

Design personalized sports insoles to optimize support and cushioning

(4) Customized orthopedic insoles and rehabilitation equipment

Provide scientific basis for plantar correction and rehabilitation training

Design personalized 3D printed orthopedic insoles according to the patient's plantar pressure distribution

Combined with orthopedic shoes and braces to improve foot force and enhance gait stability

(5) Fall risk assessment for the elderly

Monitor the gait stability of the elderly and predict the risk of falls

Design personalized gait training programs to improve balance ability

3. Application areas of gait pressure analyzer

Medical rehabilitation: evaluate nerve damage and postoperative rehabilitation progress, such as Parkinson's disease and stroke rehabilitation

Foot disease diagnosis: diagnose plantar fasciitis, diabetic foot, hallux valgus, flat feet

Sports science: analyze running gait, prevent sports injuries, and optimize gait training

Orthopedic customization: design orthopedic insoles and orthopedic shoes to improve foot comfort

Elderly health: monitor gait stability and prevent falls

Gait pressure analyzer uses high-precision pressure sensors to collect plantar force data and analyze gait patterns through professional software.

 Its main functions include plantar pressure distribution analysis, gait abnormality detection, sports injury assessment, orthopedic insole customization and fall risk assessment for the elderly. It is widely used in the fields of medicine, rehabilitation, sports science and orthopedic equipment. 

Combined with modern 3D printing, artificial intelligence analysis and other technologies, gait pressure analysis is becoming an important tool for precision medicine and sports optimization.