Yuxiang Huan scite author profile

The flexible electronics has been deemed to be a promising approach to the wearable electronic systems. However, the mismatching between the existing flexible deices and the conventional computing paradigm results an impasse in this field. In this work, a new way to access to this goal is proposed by combining flexible devices and the neuromorphic architecture together. To achieve that, a high-performance flexible artificial synapse is created based on a carefully designed and optimized memristive transistor. The device exhibits high-performance which has near-linear non-volatile resistance change under 10,000 identical pulse signals within the 515% dynamic range, and has the energy consumption as low as 45 fJ per pulse. It also displays multiple synaptic plasticity features, which demonstrates its potential for real-time online learning. Besides, the adaptability by virtue of its threeterminal structure specifically contributes its improved uniformity, repeatability, and reduced power consumption. This work offers a very viable solution for the future wearable computing.

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Edge and Fog Computing Enabled AI for IoT-An Overview

Zou

Nevalainen

Huan

et al. 2019

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Automated trading systems statistical and machine learning methods and hardware implementation: a survey

Huang

Huan

et al. 2018

Enterprise Information Systems

113

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Automated trading, which is also known as algorithmic trading, is a method of using a predesigned computer program to submit a large number of trading orders to an exchange. It is substantially a real-time decision-making system which is under the scope of Enterprise Information System (EIS). With the rapid development of telecommunication and computer technology, the mechanisms underlying automated trading systems have become increasingly diversified. Considerable effort has been exerted by both academia and trading firms towards mining potential factors that may generate significantly higher profits. In this paper, we review studies on trading systems built using various methods and empirically evaluate the methods by grouping them into three types: technical analyses, textual analyses and highfrequency trading. Then, we evaluate the advantages and disadvantages of each method and assess their future prospects.

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Yuxiang Huan

A Smart Dental Health-IoT Platform Based on Intelligent Hardware, Deep Learning, and Mobile Terminal

Tunable flexible artificial synapses: a new path toward a wearable electronic system

Edge and Fog Computing Enabled AI for IoT-An Overview

Automated trading systems statistical and machine learning methods and hardware implementation: a survey

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