Lei Huang scite author profile

Human activity recognition (HAR) aims to recognize activities from a series of observations on the actions of subjects and the environmental conditions. The vision-based HAR research is the basis of many applications including video surveillance, health care, and human-computer interaction (HCI). This review highlights the advances of state-of-the-art activity recognition approaches, especially for the activity representation and classification methods. For the representation methods, we sort out a chronological research trajectory from global representations to local representations, and recent depth-based representations. For the classification methods, we conform to the categorization of template-based methods, discriminative models, and generative models and review several prevalent methods. Next, representative and available datasets are introduced. Aiming to provide an overview of those methods and a convenient way of comparing them, we classify existing literatures with a detailed taxonomy including representation and classification methods, as well as the datasets they used. Finally, we investigate the directions for future research.

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A scalable deep learning platform for identifying geologic features from seismic attributes

Huang

2017

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The modern requirement for analyzing and interpreting ever-larger volumes of seismic data to identify prospective hydrocarbon prospects within stringent time deadlines represents an ongoing challenge in petroleum exploration. To provide a computer-based aid in addressing this challenge, we have developed a “big data” platform to facilitate the work of geophysicists in interpreting and analyzing large volumes of seismic data with scalable performance. We have constructed this platform on a modern distributed-memory infrastructure, providing a customized seismic analytics software development toolkit, and a Web-based graphical workflow interface along with a remote 3D visualization capability. These support the management of seismic data volumes, attributes processing, seismic analytics model development, workflow execution, and 3D volume visualization on a scalable, distributed computing platform. Early experiences show that computationally demanding deep learning methods such as convolutional neural networks (CNN) provide improved results over traditional methods such as support vector machines (SVMs) and logistic regression for identifying geologic faults in 3D seismic volumes. Our experiments show encouraging accuracy in identifying faults by combining CNN and traditional machine learning models with a variety of seismic attributes, and the platform is able to deliver scalable performance.

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Comparison of two-staged ORIF and limited internal fixation with external fixator for closed tibial plafond fractures

Wang

Huang

et al. 2010

Arch Orthop Trauma Surg

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Postoperative malrotation of humeral shaft fracture after plating compared with intramedullary nailing

Liu

Wang

et al. 2011

Journal of Shoulder and Elbow Surgery

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Lei Huang

A Review on Human Activity Recognition Using Vision-Based Method

A scalable deep learning platform for identifying geologic features from seismic attributes

Comparison of two-staged ORIF and limited internal fixation with external fixator for closed tibial plafond fractures

Postoperative malrotation of humeral shaft fracture after plating compared with intramedullary nailing

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