Your search keyword '"Shuo Gao"' showing total 5 results

1. Use of Advanced Materials and Artificial Intelligence in Electromyography Signal Detection and Interpretation

Author

Shuo Gao, Jing Gong, Bofei Chen, Bozhou Zhang, Fengrong Luo, Mustafa O. Yerabakan, Yu Pan, and Boyi Hu

Subjects

advanced implantable electrodes, artificial intelligence, electromyography (EMG) detection, intention interpretation, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225

Abstract

Electromyography (EMG) is an integral part of many biomedical and healthcare applications. It has been used as a metric for tracking rehabilitation progress and identifying diseases that affect muscle activation patterns. Although it is widely used in many disciplines, conventional EMG recording and interpretation techniques lack in providing precise signal detection and robust classification accuracy. In recent years, thanks to advances in both material science and artificial intelligence, EMG detection techniques are improving at a rapid pace. Materials that allow for enhanced biocompatibility have improved the quality of data recorded by electrodes. The use of machine learning algorithms has paved new ways to understand complex EMG signals, triggering diverse, novel, and improved application scenarios within the healthcare framework. To help readers establish a clear picture of the two most important components in EMG technology, i.e., electrodes and algorithms, while catching up with the latest research outcomes, this review article is composed. The article starts by introducing conventional EMG electrode materials and architectures, then explains how state‐of‐the‐art works have improved electrode utilization. Subsequently, EMG signal conditioning and interpretation algorithms are investigated. Finally, current challenges in the research domain and authors’ perspectives are discussed.

Published

2022

2. Advanced Electronics and Artificial Intelligence: Must‐Have Technologies Toward Human Body Digital Twins

Author

Yanning Dai, Jiaqi Wang, and Shuo Gao

Subjects

artificial intelligence, digital twins, human body modeling, machine learning wearable and implantable electronics, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225

Abstract

The development of precise virtual entities of human bodies has been pursued for many years, but to date, there have been few positive reports. In recent years, the success of digital twin (DT) technology in industrial applications has led to greater interest in establishing human‐body DT models. In particular, many recent advances in materials science, electrical engineering, and computer engineering have exhibited the intrinsic power of DT models in the detection and processing of complex body signals, indicating that the goals of establishing human‐body DTs are getting “within reach.” Herein, current DT technologies in industry are discussed and advanced electronics and artificial intelligent algorithms are reviewed, which are must‐have building blocks for human DTs. Finally, perspectives on the use of human‐body DTs in improving the quality of life and introduction of never‐have immersive virtual reality experiences are discussed.

Published

2022

3. A Visual Feedback Supported Intelligent Assistive Technique for Amyotrophic Lateral Sclerosis Patients

Author

Zihao Wang, Aojie Zhang, Xinyue Xia, Sizhe Zhang, Haitao Li, Jiaqi Wang, and Shuo Gao

Subjects

amyotrophic lateral sclerosis patients, eye movement tracking, human–machine interactivity, intelligent assistive system, visual feedback, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225

Abstract

Among diverse intelligent assistive systems developed for amyotrophic lateral sclerosis (ALS) patients, headwear eye tracking based ones trigger broad interests due to their merits such as noninvasive, cost effective, and high operation freedom. However, with headwear eye trackers, patients are easy to feel tired during human–machine interactivities (HMIs), and the operation accuracy is not satisfied compared with its counterparts. To address these two issues, herein, a visual feedback technique is developed which allows users to recognize machine's vision by positioning a laser spot to the user watched object, according to the location information interpreted from user's eye movement. Through the visual feedback technique, users not only obtain real‐time feedback, but also can fine‐tune the laser spot to the desired location before performing further operations. Experimental results demonstrate that the presented work can successfully reduce user's fatigue and boost operation accuracy by 25.1% and 27.6%, respectively, therefore, advancing the field of intelligent assistive technologies.

Published

2022

4. Tactile and Vision Perception for Intelligent Humanoids

Author

Shuo Gao, Yanning Dai, and Arokia Nathan

Subjects

computer vision, intelligent humanoids, object recognition and manipulation, tactile sensing, Computer engineering. Computer hardware, TK7885-7895, Control engineering systems. Automatic machinery (General), TJ212-225

Abstract

Touch and vision perception are two important functions humans use to interact with the real world. To mimic human‐like abilities, tactile‐ and visual‐sensing‐based intelligent humanoids have emerged and are going through a fast phase of development. Studies have demonstrated that the combination of tactile and visual information not only enables humanoids to better learn the environment, but also allows them to have pseudocognitive ability. Being a new and rapidly developing field of research, a significant growth in articles reporting different aspects of sensing and related machine learning is being witnessed. To help readers comprehensively understand the fundamentals and insights, and the current state of the art, this review is compiled to explain the working mechanisms of tactile and visual sensing, introduce the application of intelligent humanoids in diverse scenarios, discuss current challenges, and predict future trends.

Published

2022

5. A Visual Feedback Supported Intelligent Assistive Technique for Amyotrophic Lateral Sclerosis Patients

Author

Zihao Wang, Aojie Zhang, Xinyue Xia, Sizhe Zhang, Haitao Li, Jiaqi Wang, and Shuo Gao

Subjects

General Economics, Econometrics and Finance

Published

2021