Structural Optimization of Microfluidic Chips for Enhancing Droplet Manipulation and Observation via Electrodynamics Simulation [0.03%]
通过电动力学仿真优化微流控芯片结构以增强液滴操控和观测能力
Yanfeng Zhao,Zhiqiang Zheng,Jiaxin Liu et al.
Yanfeng Zhao et al.
Digital microfluidic chips (DMCs) have shown huge potential for biochemical analysis applications due to their excellent droplet manipulation capabilities. The driving force is a critical factor for characterizing and optimizing the perform...
Platinum Wire-Embedded Culturing Device for Interior Signal Recording from Lollipop-Shaped Neural Spheroids [0.03%]
用于记录棒棒糖形状神经类器官内部信号的嵌入白金丝培养装置
Hongyong Zhang,Nan Huang,Sumin Bian et al.
Hongyong Zhang et al.
Three-dimensional (3D) neural cultures are increasingly recognized for their complexity and resemblance to in vivo neural microenvironments. In this paper, we present a novel 3D cell culturing and noninvasive characterization technique of n...
A Vascularized Multilayer Chip Reveals Shear Stress-Induced Angiogenesis in Diverse Fluid Conditions [0.03%]
具有血管的多层芯片揭示了在多种流体条件下剪切应力诱导的血管生成过程
Tao Yue,Huiying Yang,Yue Wang et al.
Tao Yue et al.
Tissues larger than 400 μm in size lacking microvascular networks cannot survive for long periods of time in vitro. The development of microfluidic technology provides an efficient research tool for constructing microvascular models in vit...
Enhanced Digital Light Processing-Based One-Step 3-Dimensional Printing of Multifunctional Magnetic Soft Robot [0.03%]
基于增强数字光处理技术的一次性多功能磁软体机器人三维打印
Zhaoxin Li,Ding Weng,Lei Chen et al.
Zhaoxin Li et al.
Soft structures driven by magnetic fields exhibit the characteristics of being unencumbered and rapidly responsive, enabling the fabrication of various soft robots according to specific requirements. However, soft structures made from a sin...
Piezoelectric Energy Harvesting from the Thorax Vibration of Freely Flying Bees [0.03%]
自由飞舞蜜蜂胸腔振动的压电能量采集
Zhiyun Ma,Jieliang Zhao,Li Yu et al.
Zhiyun Ma et al.
Insect cyborgs have been proposed for application in future rescue operations, environmental monitoring, and hazardous area surveys. An energy harvester for insect carrying is critical to the long-lasting life of insect cyborgs, and designi...
Experimental Verification on Steering Flight of Honeybee by Electrical Stimulation [0.03%]
基于电刺激的大黄蜂自主避障及轨迹跟踪实验研究
Li Yu,Jieliang Zhao,Zhiyun Ma et al.
Li Yu et al.
The artificial locomotion control strategy is the fundamental technique to ensure the accomplishment of the preset assignments for cyborg insects. The existing research has recognized that the electrical stimulation applied to the optic lob...
A Manta Ray-Inspired Biosyncretic Robot with Stable Controllability by Dynamic Electric Stimulation [0.03%]
一种动态电刺激稳定控制的基于蝠鲼生物合成机器人
Chuang Zhang,Yiwei Zhang,Wenxue Wang et al.
Chuang Zhang et al.
Biosyncretic robots, which are new nature-based robots in addition to bionic robots, that utilize biological materials to realize their core function, have been supposed to further promote the progress in robotics. Actuation as the main ope...
Recognition of Drivers' Hard and Soft Braking Intentions Based on Hybrid Brain-Computer Interfaces [0.03%]
基于混合脑机接口的驾驶员硬软刹车意图识别
Jiawei Ju,Aberham Genetu Feleke,Longxi Luo et al.
Jiawei Ju et al.
In this paper, we propose simultaneous and sequential hybrid brain-computer interfaces (hBCIs) that incorporate electroencephalography (EEG) and electromyography (EMG) signals to classify drivers' hard braking, soft braking, and normal driv...
Interlimb and Intralimb Synergy Modeling for Lower Limb Assistive Devices: Modeling Methods and Feature Selection [0.03%]
下肢助行装置的关节间与关节内协同建模:建模方法和特征选择
Fengyan Liang,Lifen Mo,Yiou Sun et al.
Fengyan Liang et al.
The concept of gait synergy provides novel human-machine interfaces and has been applied to the control of lower limb assistive devices, such as powered prostheses and exoskeletons. Specifically, on the basis of gait synergy, the assistive ...
Emulation of Brain Metabolic Activities Based on a Dynamically Controllable Optical Phantom [0.03%]
一种可动态调控的光学仿脑体模及代谢活动仿真方法研究
Yuxiang Lin,Cheng Chen,Zhouchen Ma et al.
Yuxiang Lin et al.
This paper presents a dynamic optical phantom for the simulation of metabolic activities in the brain, and a linear equivalent model is built for control voltage versus substance concentration. A solid-solid dynamic optical phantom is reali...