Your search keyword '"Dong’ang Li"' showing total 3 results

1. Hydrogel electrodes with conductive and substrate-adhesive layers for noninvasive long-term EEG acquisition

Author

Hailing Xue, Dongyang Wang, Mingyan Jin, Hanbing Gao, Xuhui Wang, Long Xia, Dong’ang Li, Kai Sun, Huanan Wang, Xufeng Dong, Chi Zhang, Fengyu Cong, and Jiaqi Lin

Subjects

Technology, Engineering (General). Civil engineering (General), TA1-2040

Abstract

Abstract Noninvasive brain–computer interfaces (BCIs) show great potential in applications including sleep monitoring, fatigue alerts, neurofeedback training, etc. While noninvasive BCIs do not impose any procedural risk to users (as opposed to invasive BCIs), the acquisition of high-quality electroencephalograms (EEGs) in the long term has been challenging due to the limitations of current electrodes. Herein, we developed a semidry double-layer hydrogel electrode that not only records EEG signals at a resolution comparable to that of wet electrodes but is also able to withstand up to 12 h of continuous EEG acquisition. The electrode comprises dual hydrogel layers: a conductive layer that features high conductivity, low skin-contact impedance, and high robustness; and an adhesive layer that can bond to glass or plastic substrates to reduce motion artifacts in wearing conditions. Water retention in the hydrogel is stable, and the measured skin-contact impedance of the hydrogel electrode is comparable to that of wet electrodes (conductive paste) and drastically lower than that of dry electrodes (metal pin). Cytotoxicity and skin irritation tests show that the hydrogel electrode has excellent biocompatibility. Finally, the developed hydrogel electrode was evaluated in both N170 and P300 event-related potential (ERP) tests on human volunteers. The hydrogel electrode captured the expected ERP waveforms in both the N170 and P300 tests, showing similarities in the waveforms generated by wet electrodes. In contrast, dry electrodes fail to detect the triggered potential due to low signal quality. In addition, our hydrogel electrode can acquire EEG for up to 12 h and is ready for recycled use (7-day tests). Altogether, the results suggest that our semidry double-layer hydrogel electrodes are able to detect ERPs in the long term in an easy-to-use fashion, potentially opening up numerous applications in real-life scenarios for noninvasive BCI.

Published

2023

2. Using Monte Carlo Methods to Simulate Relay Function of Particles in Underwater Communication

Author

Jiashun Huang, Shuai Ren, Yanbo Zhang, and Dong'Ang Li

Subjects

Engineering, business.industry, Forward scatter, Monte Carlo method, Function (mathematics), Poisson distribution, Field (computer science), law.invention, symbols.namesake, Relay, law, symbols, Electronic engineering, business, Underwater acoustic communication, Simulation, Free-space optical communication

Abstract

Underwater communication plays an important role in communication field. As underwater communication has very special scenario, traditional communication technologists can not be transplant directly, blue-green laser communication has been used in underwater wireless communication system for many years. In this paper, we analyze the relationship between output laser intensity and forward scattering coefficient. Monte Carlo simulation mechanism is used in this paper as a tool to simulate a specific environment. Simulation results show that with increasing of forward scattering coefficient the value of biggest output laser intensity will enhance step by step. We also find that the forward scattering coefficient under the rule of Poisson distribution with the biggest output laser intensity.

Published

2015

3. Analyzation and Simulation of Underwater Laser Communication Based on Monte Carlo Mechanism

Author

Jiashun Huang, Shuai Ren, Dong'Ang Li, and Yanbo Zhang

Subjects

Engineering, Exponential distribution, business.industry, Acoustics, Monte Carlo method, Laser, law.invention, Light intensity, Transmission (telecommunications), law, Underwater, business, Simulation, Free-space optical communication, Data transmission

Abstract

Nderwater laser communication is an efficient communication method used in underwater environment. It has been used in many instruments to achieve high speed and wide band data transmission. In the presented paper, we simulate and analyze the affection on laser transmitting caused by random particle. We use Monte carol mechanism as tool to simulate a scenario of underwater laser communication. We focus on the relationship between density of different particles in water and the transmission area. Simulation results show that the output laser intensity under the rule of exponential distribution with the extend of communication area. We also find that although density is different the position of the strongest output light intensity is always at the second and the third line in simulation.

Published

2015