US20250162143
2025-05-22
Performing operations; transporting
B25J9/163
The AI hand-type device is designed to emulate human hand capabilities, enabling it to autonomously identify and manipulate small, fragile objects with high precision. Utilizing advanced sensors, algorithms, and AI, the device employs computer vision technology and a high-resolution camera to accurately determine the position and angle of objects. It performs tasks such as quality inspection, object placement, and mechanical operations autonomously, making real-time decisions based on its environment.
This invention falls within the realms of robotics, artificial intelligence (AI), and computer vision technology. It represents a significant advancement in automation by offering delicate object handling and quality control inspection across various industries such as manufacturing, electronics, medical, and more. The device's unique ability to handle both small and large objects with precision sets it apart from traditional industrial robots.
Traditional industrial robots excel at handling heavy objects but lack the precision required for small, delicate items. While existing AI-driven robotic systems have improved versatility and gentle gripping capabilities, they still fall short in emulating the human hand's dexterity. This invention addresses these limitations by offering enhanced dexterity and adaptability, overcoming challenges such as limited dexterity, setup complexity, safety concerns, and adaptability to new objects.
The AI hand-type device is capable of performing tasks such as identifying, repositioning, picking up, detecting location, and placing delicate objects with precision. It features a camera for capturing high-quality images and sensors for pressure, temperature, and force detection. The device can learn from past experiences to improve its handling precision and perform quality inspections. It also supports human interaction through voice commands or physical assistance for teaching purposes.
This invention enhances robotic hand dexterity by integrating sensory capabilities like vision and auditory input. The groundbreaking aspect is its ability to be trained by human experts through physical and vocal instructions without requiring programming skills. This makes the technology accessible to non-technical individuals while maintaining high precision in task execution. The device's architecture includes input from microphones for object identification and quality control tasks.