Fit-GS-PRO Exoskeleton for Universities & Medical Research

1 / 5

Fit-GS-PRO Exoskeleton for Universities & Medical Research

Customization:	Available
LCD Display:	Without LCD Display
Group:	Adult

Send Inquiry

Product Description

📍 Basic Information

Model NO.

FIT-GS-PRO

Battery Life

2-4h

Equipment Weight

<18kg

Power Source

Electrical Assisted Drive

Plantar Channels

Dimensions

700X300X1500mm

Materials

Engineering Plastic, Aviation Aluminum Alloy, Carbon

HS Code

8543709990

🚀 Product Description

Expertise in professional-grade product development has led to the innovative FIT-GS-Pro lower-limb driven exoskeleton robot. Specifically designed for universities, research institutions, and medical research entities, it offers a customized platform for secondary development and in-depth research.

The FIT-GS-Pro is outfitted with an intelligent digital driver. This cutting-edge technology enables a seamless integration of the integrated modular deceleration system and the adaptive intelligent motion control system. By utilizing software-based mechanical impedance and self-learning adaptive gait algorithms, and complemented by AI-powered motion control and pattern recognition techniques, the robot can rapidly adapt to a wide range of complex motion scenarios, thereby fulfilling diverse development requirements.

❓ Frequently Asked Questions

What are the primary applications for FIT-GS-Pro?

It is primarily designed for universities, research institutions, and medical research entities as a platform for secondary development and motion study.

How long does the battery last on a single charge?

The device offers a battery life of approximately 2 to 4 hours depending on the intensity of the motion tasks.

What materials are used in its construction?

The exoskeleton is built using high-quality Engineering Plastic, Aviation Aluminum Alloy, and Carbon Fiber for a balance of strength and light weight.

Does it support AI and pattern recognition?

Yes, it features AI-powered motion control and pattern recognition techniques to adapt to various motion scenarios.

Can the gait algorithm be customized?

Absolutely. The system uses self-learning adaptive gait algorithms and is designed as an open platform for secondary development.

What is the weight of the equipment?

The total equipment weight is less than 18kg, making it relatively portable for research environments.

Fit-GS-PRO Exoskeleton for Universities & Medical Research

Product Description

Related Products

Smart Multi-Parameter Digestion Tool for Enhanced Research Efficiency

High-Purity for Industrial Applications and Research Vo

High Quality Decylamine CAS 2016-57-1 for Chemical Research

20kHz Industry Standard Ultrasonic Sonochemistry for Virus Research

3-Nonanone CAS 925-78-0 for Scientific Research

High-Efficiency Ocean Research Platform for Coastal and Deep-Sea Missions Ocean Drone

Lightweight Autonomous Usv for Educational and Research Use

Koi Scientific Research Ready Usv with Sampling and Detection

Wide-Area Marine Research Platform for Long-Duration Survey Missions Unmanned Boat

Innovative Ocean Data Acquisition System for Advanced Scientific Research Unmanned Vessel