FIT-GS-Pro Exoskeleton with AI for Lower Limbs – Assisted Walking and Research

• ✔ Innovative AI-powered motion control for natural walking.
• ✔ Advanced adaptive algorithms for rapid gait optimization.
• ✔ Comprehensive system with 12 degrees of freedom (4 active).
• ✔ Lightweight and robust construction made of aircraft aluminum and carbon fiber.
• ✔ Long battery life of up to 6 hours for extended sessions.
• ✔ Designed for secondary development and in-depth research.
• ✔ Adjustable height for a wide range of users (160-185 cm).

The FIT-GS-Pro exoskeleton is a cutting-edge solution for gait support and extensive research in robotics and medicine. This system is equipped with an intelligent digital controller that integrates a modular deceleration system with an adaptive motion control system. With advanced AI and self-learning algorithms, it can quickly adapt to various movement scenarios, opening up new possibilities for universities, research and medical institutions.

⚙️ Key features that push the boundaries

• Intelligent digital controller with independent integrated modular deceleration system.
• Adaptive intelligent motion control system.
• Software based on mechanical impedance and self-learning adaptive gait algorithms.
• AI-powered motion control and pattern recognition techniques for rapid adaptation.
• 12 degrees of freedom, including 4 active and 8 passive.
• Support for 32-channel plantar pressure data for detailed analysis.
• Integrated low-voltage rotary servo motor with gearbox.
• Robust construction made of engineering plastics, aircraft aluminum alloys and carbon fiber.

🔬 Explore every detail of the innovation

FIT-GS-Pro is designed with maximum flexibility and adaptability in mind. Its independently developed digital controller is the heart of the system, ensuring seamless integration of all components. The combination of a modular deceleration system and adaptive motion control allows the robot to respond intuitively to the user's needs and environment. With AI integrated into the control and pattern recognition, the highest level of adaptability and fluidity of movement is ensured.

This exoskeleton is an ideal platform for secondary development and in-depth research, providing the data and flexibility needed for breakthrough discoveries. From software-based mechanical impedance to advanced gait algorithms, every aspect has been carefully designed to meet the demanding requirements of the academic and medical worlds.

🤔 Are you worried about limitations in robotic assistance research?

Many existing exoskeletons lack the flexibility and adaptability needed for complex research projects or individual patient needs. Limited degrees of freedom, insufficient sensory inputs, or lack of support for secondary development can hinder innovation and effective rehabilitation. Finding a platform that combines robust hardware with intelligent software for real-time adaptation can be a challenge.

🚀 Get an unbeatable research platform with FIT-GS-Pro!

The FIT-GS-Pro is the answer to these challenges. With its intelligent digital controller, AI-powered motion control, and self-learning algorithms, it offers an unprecedented level of adaptability. Whether it's researching new rehabilitation methods, testing advanced gait algorithms, or developing custom applications, this exoskeleton provides a robust and flexible foundation to move your project forward.

🌟 More than just features, real benefits for you

• Features: AI-powered motion control and pattern recognition -> Benefit: Dynamic and more natural gait that intelligently adapts to the user and the environment.
• Features: Modular design and support for secondary development -> Benefit: Easy integration, maintenance and the ability to create custom solutions for specific research or application needs.
• Feature: Self-learning adaptive gait algorithms -> Benefit: Performance optimization for each individual user, leading to more effective rehabilitation and research.
• Features: 12 degrees of freedom (4 active, 8 passive) -> Benefit: Unprecedented flexibility to simulate and support a wide range of movement patterns.
• Feature: Lightweight construction (<18 kg) made of advanced materials -> Benefit: Increased user comfort and reduced effort when handling the device.
• Feature: Long battery life (4-6 hours) -> Benefit: Extended research sessions and therapy without the need for frequent recharging.

👥 For whom is FIT-GS-Pro the ideal choice?

• Universities and research institutions: Looking for a cutting-edge platform for advanced research in robotics, bionics and biomechanics.
• Medical research entities: For the development and testing of innovative rehabilitation therapies and assistive technologies.
• Rehabilitation centers: As a tool for streamlining and individualizing gait therapies for patients with mobility limitations.

💡 Do you have any concerns? We'll answer them!

• Concern: Is the exoskeleton complex to integrate into existing research protocols? -> Answer: FIT-GS-Pro is directly designed as a platform for secondary development, with full software support and open customization options.
• Concern: Will the exoskeleton adapt sufficiently to different users and situations? -> Answer: Thanks to AI-powered control and self-learning adaptive algorithms, the system dynamically adapts to a wide range of movement patterns and individual needs.
• Concern: Is the device heavy and uncomfortable for long-term use? -> Answer: With a weight of under 18 kg and an adjustable height between 160-185 cm, the FIT-GS-Pro is designed for maximum comfort and minimal strain.

📊 Technical specifications

Dimensions (L×W×H)	542 × 411 × 1385mm
Control unit dimensions (L×W×H)	102 × 71 × 35mm
Device weight	< 18 kg (including 1 battery)
Drive	Electric
Adjustable user height	160 – 185 cm
Battery type	Removable lithium battery (external supplier)
Battery life	4 – 6 hours on battery
Degrees of freedom (DOF)	12 (4 active, 8 passive)
Materials	Engineering plastics, aviation aluminum alloys, carbon fibers
Software	Motion control software, embedded systems software, real-time fieldbus system software
Sensors	Support for 32-channel plantar pressure data
Engine	Integrated low-voltage rotary servo motor with gearbox

❓ Frequently Asked Questions (FAQ)

What is the FIT-GS-Pro exoskeleton primarily intended for?

It is designed for universities, research institutions and medical research entities as a platform for secondary development and in-depth research in the field of gait support and rehabilitation.

What role does artificial intelligence (AI) play in the functioning of an exoskeleton?

AI is used for intelligent motion control and pattern recognition, allowing the robot to quickly adapt to a wide range of complex movement scenarios and ensure smooth and natural walking.

What is the maximum and minimum adjustable user height?

The exoskeleton supports height adjustment for users ranging from 160 to 185 cm.

How long does the battery last and is it replaceable?

A single lithium battery lasts 4 to 6 hours and is designed to be removable and replaceable.

What materials is the exoskeleton made of?

High-quality engineering plastics, aircraft aluminum alloys and carbon fibers are used in production to ensure strength and low weight.

How many degrees of freedom does this exoskeleton have?

It has a total of 12 degrees of freedom, 4 of which are active and 8 passive, which ensures high flexibility of movement.

Is management and development software available?

Yes, motion control software, embedded systems software, and real-time fieldbus system software are included.

What sensors are integrated for motion tracking?

The system supports 32-channel plantar pressure data, allowing for detailed gait analysis and adaptation.