FIT-GS-Pro: Intelligent Exoskeleton for Research and Movement Assistance with AI

• ✔ Advanced AI-powered motion control and pattern recognition.
• ✔ Adaptive gait algorithms and software-controlled mechanical impedance.
• ✔ An astonishing 12 degrees of freedom for maximum flexibility of movement.
• ✔ Specially designed for universities, research and medical institutions.
• ✔ Open platform for secondary development and in-depth research.
• ✔ Lightweight design under 18 kg with long battery life (4-6 hours).
• ✔ Integrated support for 32-channel plantar pressure data.

Introducing FIT-GS-Pro, a cutting-edge lower limb exoskeleton that redefines the possibilities of robotic assisted movement. Equipped with intelligent digital control and advanced artificial intelligence, this system offers unprecedented adaptability and precision. It is the ideal choice for researchers and professionals looking for a flexible and powerful platform.

💡 Discover the key qualities that will take you further!

• Intelligent digital control: Independently developed intelligent digital controller for seamless integration.
• Adaptive motion system: Integrated modular de-acceleration system and adaptive intelligent motion control.
• AI-powered flexibility: Utilizes software-based mechanical impedance and self-learning adaptive gait algorithms.
• Pattern Recognition: Complemented by AI-powered motion control and pattern recognition techniques for rapid adaptation.
• Extensive freedom of movement: 12 degrees of freedom, including 4 active and 8 passive, for natural movement.
• Sensory data: Support for 32-channel plantar pressure data for detailed analysis.
• Robust construction: Made of engineering plastics, aircraft aluminum alloys and carbon fiber.

🔬 Explore every detail of intelligent motion

FIT-GS-Pro represents a revolution in robotic exoskeletons, integrating the latest technologies for assistance and research in lower limb movement. At its heart is an intelligent digital controller that autonomously controls a modular de-acceleration system and adaptive intelligent motion control. This synergy ensures exceptionally smooth and natural movement that adapts perfectly to the user.

Through the innovative use of software-based mechanical impedance and self-learning adaptive gait algorithms, combined with advanced AI-powered motion control and pattern recognition techniques, the robot can instantly adapt to a wide range of complex movement scenarios. This meets a variety of development and research requirements. The exoskeleton is designed with an emphasis on modularity and customization, making it an ideal platform for secondary development and in-depth research in universities, research institutions and medical workplaces.

🤔 Are you worried about the limited possibilities in robotic movement assistance research?

Standard exoskeletons often face limits in adaptability, flexibility, and data collection capabilities, which hinder the implementation of comprehensive research studies and the development of innovative rehabilitation programs. Limited degrees of freedom, insufficient responsiveness to changing conditions, and complex integration of custom algorithms can slow down progress in the field of assistive robotics.

🚀 With FIT-GS-Pro you get a breakthrough solution for your research!

The FIT-GS-Pro is designed to overcome these challenges. Its advanced 12-degree-of-freedom architecture, AI-powered adaptive control, and open development platform provide researchers with a tool that enables them to realize even the most ambitious projects. Gain the flexibility to experiment with different movement patterns and collect detailed data for a deeper understanding of the biomechanics of human movement.

🌟 More than just features – real benefits for your project

• Features: Intelligent digital control with AI: Rapid adaptation to complex motion scenarios, minimizing the need for manual configuration and maximizing research efficiency.
• Features: 12 degrees of freedom (4 active, 8 passive): Unprecedented flexibility and naturalness of movement, enabling extensive experiments and simulations that are unfeasible with other systems.
• Features: Open platform for secondary development: Allows full control and customization, accelerates research processes and supports in-house innovation.
• Features: 32-channel plantar pressure support: Provides deep insights into gait biomechanics, which is key for detailed analysis and algorithm optimization.

🎯 For whom is AI FIT-GS-Pro the ideal choice?

• Universities and Technical Faculties: For teaching and research in the areas of robotics, biomechanics, mechatronics and artificial intelligence.
• Research Institutions: For the development of advanced assistive and rehabilitation technologies.
• Medical and Rehabilitation Clinics: For detailed studies of gait, motor function and for testing rehabilitation protocols.

💬 Are you worried? We have the answers!

• Concern: Complexity of integration and programming custom algorithms? Answer: Thanks to the modular design, open software platform, and comprehensive documentation, integration is intuitive and supports agile development.
• Concern: Limited battery life for long-term research? Answer: A replaceable lithium battery with a 4-6 hour life provides sufficient operation and quick replacement for uninterrupted research or therapy.
• Concern: Adaptability for different height categories of users? Answer: The exoskeleton supports height adjustments in the range of 160 to 185 cm, which guarantees adaptability for a wide range of research subjects.

🛠️ Technical specifications

Parameter	Value
Dimensions (L×W×H)	542 × 411 × 1385mm
Device weight	< 18 kg (including 1 power battery)
Drive type	Electric motor drive
Height adjustment range	160 – 185 cm
Battery type	Removable, replaceable lithium battery
Battery life	4 – 6 hours/battery
Degrees of freedom	12 (4 active, 8 passive)
Materials	Engineering plastics, aviation aluminum alloys, carbon fibers
Supported software	Motion control software, embedded systems software, real-time fieldbus system software
Sensors	Support for 32-channel plantar pressure data
Motor system	Integrated low-winding torque servo motor with integrated gearbox

❓ Frequently Asked Questions (FAQ)

Who is FIT-GS-Pro primarily intended for?

It is designed primarily for universities, research institutions, and medical research entities looking for an advanced platform for secondary development and in-depth research in the field of assistive robotics and biomechanics.

What is the battery life and is it replaceable?

A single lithium battery provides 4-6 hours of operation. The battery is removable and replaceable, allowing for efficient power management and minimizing downtime.

How many degrees of freedom does an exoskeleton offer and what does that mean?

The FIT-GS-Pro has 12 degrees of freedom (4 active, 8 passive). This ensures extremely flexible and natural movement, which is crucial for realistic simulations and a wide range of research applications.

What role does artificial intelligence play in this exoskeleton?

AI-powered motion control and pattern recognition techniques allow the exoskeleton to quickly adapt to complex movement scenarios, optimize gait, and provide intelligent assistance.

What types of data can FIT-GS-Pro collect?

The system supports the collection of 32-channel plantar pressure data, which is an invaluable resource for detailed analysis of pressure distribution during walking and optimization of movement algorithms.

Is the exoskeleton suitable for users of different heights?

Yes, the FIT-GS-Pro supports height adjustments from 160 to 185 cm, ensuring its adaptability for a wide range of users and research subjects.