H
Hua Li
Researcher at Nanyang Technological University
Publications - 216
Citations - 4866
Hua Li is an academic researcher from Nanyang Technological University. The author has contributed to research in topics: Self-healing hydrogels & Nonlinear system. The author has an hindex of 35, co-authored 205 publications receiving 3659 citations. Previous affiliations of Hua Li include Institute of High Performance Computing Singapore & National University of Singapore.
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Indoor occupancy estimation from carbon dioxide concentration
TL;DR: It is found that pre-smoothing the CO2 data can greatly improve the estimation accuracy and a new criterion, i.e. $x$-tolerance accuracy, is introduced to assess the occupancy estimator.
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A feedforward neural network based indoor-climate control framework for thermal comfort and energy saving in buildings
TL;DR: An indoor-climate control framework that bridges the gap between energy and comfort and exhibits the potential to achieve both occupant-comfort and energy-saving through integration with the Internet-of-Things for realizing comfort-energy balanced buildings.
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Random forest based thermal comfort prediction from gender-specific physiological parameters using wearable sensing technology
TL;DR: In this paper, the authors investigated the possibility to predict human thermal state (Comfort/Discomfort) from the information of physiological parameters, which can facilitate informed control decision of ambient thermal-conditioning in a building environment.
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Thermal comfort prediction using normalized skin temperature in a uniform built environment
TL;DR: In this article, a method termed as Predicted Thermal State (PTS) model is presented, which uses the peripheral skin temperature and its gradient features from a single body location to evaluate the thermal state.
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Fatigue and fracture behaviour of laser powder bed fusion stainless steel 316L: Influence of processing parameters
TL;DR: In this article, the authors show that porosity does not impinge on the high cycle fatigue properties when processing is kept within a ±30% tolerance band, and regardless of the processing condition, fatigue resistance follows a direct linear relationship with ductility and tensile strength in the low and high stress fatigue regimes respectively.