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8 results on '"Hoang, Le Ha"'

1. FT-ClipAct: Resilience Analysis of Deep Neural Networks and Improving their Fault Tolerance using Clipped Activation

Author

Hoang, Le-Ha, Hanif, Muhammad Abdullah, and Shafique, Muhammad

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Deep Neural Networks (DNNs) are widely being adopted for safety-critical applications, e.g., healthcare and autonomous driving. Inherently, they are considered to be highly error-tolerant. However, recent studies have shown that hardware faults that impact the parameters of a DNN (e.g., weights) can have drastic impacts on its classification accuracy. In this paper, we perform a comprehensive error resilience analysis of DNNs subjected to hardware faults (e.g., permanent faults) in the weight memory. The outcome of this analysis is leveraged to propose a novel error mitigation technique which squashes the high-intensity faulty activation values to alleviate their impact. We achieve this by replacing the unbounded activation functions with their clipped versions. We also present a method to systematically define the clipping values of the activation functions that result in increased resilience of the networks against faults. We evaluate our technique on the AlexNet and the VGG-16 DNNs trained for the CIFAR-10 dataset. The experimental results show that our mitigation technique significantly improves the resilience of the DNNs to faults. For example, the proposed technique offers on average 68.92% improvement in the classification accuracy of resilience-optimized VGG-16 model at 1e-5 fault rate, when compared to the base network without any fault mitigation., Comment: The 23rd Design, Automation and Test in Europe (DATE 2020)

Published
2019

2. Exploring continuance intention to use electric motorcycles among students in Hanoi using expectation confirmation theory

Author

Nguyen Minh Hieu, Hoang Van Hao, Tran Thanh Tung, Khuc Anh Duong, Nguyen Duc Manh, Hoang Le Ha Phuong, and Ngo Minh Ngoc

Subjects
General Earth and Planetary Sciences, General Environmental Science
Abstract

To sustain the development of urban transportation, electrifying private motorized vehicles is a top goal besides the development of public transport. This study aims at investigating the influential factors of continuance intention to use electric motorcycles based on an extension of Expectation Confirmation Theory (ECT). To empirically test the proposed conceptual framework, Partial Least Squares Structural Equation Modeling (PLS-SEM) and the data of 394 students in Hanoi collected in August 2022 are used. The results show that perceived usefulness and satisfaction directly facilitate the continuance intention while perceived ease of use and expectation confirmation have indirect positive effects. Female students tend to have less intention to continue using electric motorcycles while those living in non-urban districts seem to have a higher continuance intention. The prediction capacity of the model is high with over 65% of the variance of continuance intention being explained by (independent) constructs. Based on the findings of influential factors, the authors propose practical implications for triggering the use of electric motorcycles among students

Published
2023
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4. Numerical dosimetry of induced phenomena in the human body by a three-phase power line

Author

Hoang, Le Ha, Scorretti, Riccardo, Burais, Noel, and Voyer, Damien

Subjects
Finite element method -- Usage, Body, Human -- Analysis, Power lines -- Usage, Radiation dosimetry -- Analysis, Business, Electronics, Electronics and electrical industries
Abstract

We computed by finite element the fields induced in an heterogeneous model of the human body by both the electric and magnetic field generated by a three-phase power line. Results were partially validated and analyzed by comparison with existing data with uniform magnetic field. Induced currents due to both E and B were developed inside the body in an asymmetrical manner. Index Terms--Dosimetry, extremely low frequency (ELF), finite-element method, human body.

Published
2009

6. Contribution to modelization of 3D low frequencies interaction between EM fields and human body

Author

Hoang , Le Ha, Ampère (AMPERE), École Centrale de Lyon (ECL), Université de Lyon-Université de Lyon-Université Claude Bernard Lyon 1 (UCBL), Université de Lyon-Institut National des Sciences Appliquées de Lyon (INSA Lyon), Université de Lyon-Institut National des Sciences Appliquées (INSA)-Institut National des Sciences Appliquées (INSA)-Centre National de la Recherche Scientifique (CNRS)-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Ecole Centrale de Lyon, Alain Nicolas(alain.nicolas@ec-lyon.fr), Ampère, École Centrale de Lyon ( ECL ), Université de Lyon-Université de Lyon-Université Claude Bernard Lyon 1 ( UCBL ), Université de Lyon-Institut National des Sciences Appliquées de Lyon ( INSA Lyon ), Université de Lyon-Institut National des Sciences Appliquées ( INSA ) -Institut National des Sciences Appliquées ( INSA ) -Centre National de la Recherche Scientifique ( CNRS ), and Ampère, Publications

Subjects
[ INFO.INFO-MO ] Computer Science [cs]/Modeling and Simulation, Low frequency electromagnetic field, champ électromagnétique B.F, [SPI.NRJ]Engineering Sciences [physics]/Electric power, human exposition, éléments finis, numerical dosimetry, [INFO.INFO-MO]Computer Science [cs]/Modeling and Simulation, exposition humaine, [ SPI.NRJ ] Engineering Sciences [physics]/Electric power, finite element, dosimétrie numérique, [INFO.INFO-MO] Computer Science [cs]/Modeling and Simulation, [SPI.NRJ] Engineering Sciences [physics]/Electric power
Abstract

The human body is more and more exposed to the “electrosmog”, due to increasing usage of electricity. Although the consequence of such a pollution on the human health have not been clearly established, European standards define some maximum values for the magnetic field H, the electrical field E, and the resulting induced current density J, which have not to be exceeded in the human body. Besides, the transport of electrical energy is focusing the concerns since a long time, due to the very high levels of all the electrical quantities. As invasive measurements of electromagnetic fields and current density in the body are vary difficult, this PhD thesis is devoted to 3D Finite Element modelling of induced phenomena in the human body at power frequencies (50 or 60 Hz).The bibliography presents the state of the art on short-time and long time effects of electromagnetic fields on the human health, experimental and numerical methods used in dosimetry of electromagnetic phenomena, and on the macroscopic electrical quantities (conductivity and permittivity) of the organs.Starting from Maxwell equations, the two “classical” formulation (dielectric, and ф-A) are implemented, so as to simulate separately the effects of E and H fields on simple geometries. The results put in evidence some constraints, concerning the exposure conditions, the presence of the soil and electrical properties of the human body.Then, a unified formulation has been developed from the work of A. Bossavit, and allows taking into account the simultaneous exposure to the E and H fields. The modelling associated with this formulation requires three steps, each of one having its own domain of resolution (the space out of the body, the only body), interface conditions and boundary conditions. Several simulations with an anatomical model of the body illustrate the independent and simultaneous effects of the two fields E and H on the distribution of induced currents.Comparisons with results obtained by researchers of other groups by using other numerical methods and models of the human body, take to this work a kind of validation (at present time no experimental validation is available). Finally, this modelling has been used to illustrate the case of workers operating with electrical power lines., Le corps humain est de plus en plus exposé à une pollution électromagnétique résultant de l'utilisation croissante de l'électricité. Bien que les conséquences sur la santé ne soient pas clairement établies, des réglementations européennes précisent notamment des valeurs de champ magnétique H, de champ électrique E, et de densité J de courants induits dans le corps à ne pas dépasser. Par ailleurs, le transport de l'énergie électrique attire l'attention depuis longtemps en raison des valeurs très importantes des grandeurs électriques. Compte tenu des difficultés liées à la mesure invasive de champs et de courant dans le corps, ce travail de thèse est consacré à la modélisation numérique 3D par Eléments Finis de ces phénomènes induits à la fréquence industrielle (50 ou 60 Hz). L'étude bibliographique fait le point sur les effets des champs sur la santé à court et long terme, les méthodes numériques et expérimentales utilisées pour la dosimétrie, et les caractéristiques électriques macroscopiques des organes. Partant des Equations de Maxwell, les deux formulations « classiques » (électro-quasi-statique, et ф – A ) sont mis en œuvre pour simuler séparément les effets des champs E et H sur des géométries simples. Les résultats mettent en évidence certaines contraintes liées aux conditions d'exposition, à la présence du sol et aux caractéristiques du corps humain. Puis une formulation unifiée est développée à partir des travaux d'A. Bossavit, et permet de prendre en compte l'exposition simultanée aux champs électrique et magnétique. Cette formulation est associée à une démarche en plusieurs étapes avec différents domaines d'étude (extérieur du corps, corps seul), des conditions d'interface, et des conditions aux limites spécifiques. Diverses simulations réalisées sur un modèle anatomique de corps humain illustrent les effets séparés et combinés des deux champs sur la répartition des courants induits. Des comparaisons avec les résultats obtenus par d'autres équipes de recherche avec d'autres méthodes numériques et modèles du corps humain, apportent une certaine validation en l'absence de résultats expérimentaux. Finalement, l'utilisation du modèle est illustrée pour les travailleurs sous tension sur les lignes.

Published
2007

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