“A Novel Adaptive Gesture Recognition Framework for Bionic Hands Using Stacked Autoencoder (SAE), Adaptive Bayesian Feature Selection (ABFS), MODWT, and Magnetomyography (MMG)”

For amputees and those who rely on prosthetic limbs, the dream of natural, intuitive movement is now within reach. Our team has developed an intelligent bionic hand that doesn’t just follow commands—it learns, adapts, and responds in real time, almost like a natural extension of the body. By combining muscle magnetic sensing (MMG) and electrical signal detection (sEMG), this system captures even the subtlest muscle movements with incredible precision. 5 But what truly sets it apart is its brain-like adaptability: • Self-Learning AI – Using advanced neural networks, the hand continuously improves its recognition of your unique muscle patterns, whether you’re an amputee or not. • Instant Response – With accuracy reaching up to 99.9% in controlled trials and a processing delay as low as 12 ms, movements feel fluid and natural. • Real-World Testing – Tested on 15 participants and evaluated through both ADAMS-MATLAB co-simulation and preliminary hardware experiments with a 3D-printed prototype, the system demonstrates strong feasibility. 3 It is a personalized, evolving solution that bridges the gap between human and machine. While larger-scale and long-term studies are still required, this work paves the way for next-generation prosthetic control systems that restore not only function but also confidence. 2 A sleek, realistic bionic hand in motion, with arrows and vectors indicating force inputs applied to the hand. Show a co-simulation process between ADAMS and MATLAB with lines connecting two abstract representations of each software, illustrating the dynamic interaction. Include a small section representing a video play button, showcasing the hand performing fluid, natural gestures. Add a graph or chart showing kinematic and dynamic analysis results (speed, accuracy, force adaptation) with labels. Include a futuristic machine learning symbol to represent future integration with prosthetics. Use a clean, professional color palette with a focus on technology and innovation.