Visual adaptation of human eye. Credit: Weizhen Liu, Xuhui Yang, Zhongqiang Wang, Yuanzheng Li, Jixiu Li, Qiushi Feng, Xiuhua Xie, Wei Xin, Haiyang Xu, and Yichun Liu Visual adaptation of human eye.

Visual-inertial sensor systems combine data from cameras and inertial measurement units (IMUs) to estimate motion and environment structure with high precision. Calibration ensures accurate alignment ...

Tactile is an essential information for humans perceiving the world physically. And tactile sensing plays an important role in improving the performance of planning and control for a robotic ...

The low-power robotics system LENS merges a brainlike sensor, a chip and an AI model This hexapod robot recognizes its surroundings using a vision system that occupies less storage space than a single ...

Researchers created a machine vision sensor that uses quantum dots to adapt to extreme changes in light far faster than the human eye can. (Nanowerk News) In blinding bright light or pitch-black dark, ...

Recently, an artificial visual device with integrated visual adaptation functions was proposed by Professor Xu Haiyang's group from Key Laboratory of UV-Emitting Materials and Technology of Ministry ...

Because the γ-InSe opto-sensor can act as a self-powered device, benefiting from the photocarrier separation induced by the built-in electric field at the Schottky junction interfaces between gold ...