Your search keyword '"Tan Nhat Pham"' showing total 15 results

1. Prediction of fire danger index using a new machine learning based method to enhance power system resiliency against wildfires

Author

Tan Nhat Pham, Rakibuzzaman Shah, Nima Amjady, and Syed Islam

Subjects

forecasting theory, wildfires, Distribution or transmission of electric power, TK3001-3521, Production of electric energy or power. Powerplants. Central stations, TK1001-1841

Abstract

Abstract Wildfires, which can cause significant damage to power systems, are mostly inevitable and unpredictable. Fire danger indexes, such as the Forest Fire Danger Index (FFDI) and the Canadian Fire Weather Index (FWI), measure the potential wildfire danger at a given time and location. Thus, by predicting these fire danger indexes in advance, power system operators can obtain valuable insight into the potential wildfire risks and can better be prepared to tackle the wildfires. However, due to dependency on weather conditions, these indexes usually have volatile time series, which make their prediction complex. Taking these facts into account, this paper, unlike previous approaches that predict fire danger indexes based on climatological models, develops a machine learning‐based forecast process to predict these indexes using the relevant weather data and past performance. To do this, first, a volatility analysis approach is presented to analyse the volatility level of the time series data of a fire danger index. Afterwards, an effective machine learning‐based forecast methodology using a new deep feature selection model is proposed to predict fire danger indexes. The developed forecast methodology is tested on the real‐world data of FFDI and FWI and is compared with several popular alternative methods reported in the literature.

Published

2024

2. Tourism social sustainability in remote communities in Vietnam: Tourists’ behaviors and their drivers

Author

An Dan Vu, Tan Vo-Thanh, Thi Tuyet Mai Nguyen, Ha Linh Bui, and Tan Nhat Pham

Subjects

Sustainable tourism, Tourism social sustainability, Behaviors, Remote community, Drivers, Vietnam, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Drawing on the social practice theory, theory of planned behavior, social contagion theory, and social exchange theory, this study focused on tourist behaviors affecting tourism social sustainability and their drivers. Besides its unique contribution to distinguishing positive behaviors from negative ones, this study is the first exploring tourism social sustainability in remote communities in Vietnam, an emerging country and focusing on domestic tourists. The study reveals that tourists’ knowledge about tourism social sustainability is not only the safeguard against conducting improper behaviors. Behaviors negatively impacting tourism social sustainability can be instigated by crowd, pampering of one’s convenience, and superiority feeling. Furthermore, inappropriate behaviors can be nurtured by the community and service providers. This study also indicates a mixed finding regarding the role of tour operators and tour guides in enforcing the code of conduct and regulations; however, both leader and members of the community can play a critical role in promoting socially sustainable tourist behaviors.

Published

2024

3. A Novel Wrapper–Based Feature Selection for Early Diabetes Prediction Enhanced With a Metaheuristic

Author

Tuan Minh Le, Thanh Minh Vo, Tan Nhat Pham, and Son Vu Truong Dao

Subjects

Neural network, early diabetes, feature selection, multilayer perceptron, grey wolf optimization, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Diabetes leads to health problems for hundreds of millions of people globally every year. Available medical records of patients quantify symptoms, body features, and clinical laboratory test values, which can be used to perform biostatistics analysis aimed at finding patterns or features undetectable by current practice. In this work, we proposed a machine learning model to predict the early onset of diabetes patients. It is a novel wrapper-based feature selection utilizing Grey Wolf Optimization (GWO) and an Adaptive Particle Swam Optimization (APSO) to optimize the Multilayer Perceptron (MLP) to reduce the number of required input attributes. Moreover, we also compared the results achieved using this method and several conventional machine learning algorithms approaches such as Support Vector Machine (SVM), Decision Tree (DT), K-Nearest Neighbor (KNN), Naïve Bayesian Classifier (NBC), Random Forest Classifier (RFC), Logistic Regression (LR). Computational results of our proposed method show not only that much fewer features are needed, but also higher prediction accuracy can be achieved (96% for GWO - MLP and 97% for APGWO - MLP). This work has the potential to be applicable to clinical practice and become a supporting tool for doctors/physicians.

Published

2021

4. A Multi-Restart Dynamic Harris Hawk Optimization Algorithm for the Economic Load Dispatch Problem

Author

Tan Nhat Pham, Ly Van Tran, and Son Vu Truong Dao

Subjects

Economic load dispatch problem, Harris Hawks optimization, multi-restart, opposition-based learning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

In this study, we propose an algorithm based on a recently proposed metaheuristic called the Harris Hawk Optimization (HHO). We utilized a dynamic control strategy to enhance the exploration capability. To further avoid trapping in local optima, we incorporate opposition-based learning (OLB) and a multi-restart strategy. The proposed algorithm is used to solve economic load dispatch (ELD) problems with non-smooth cost functions. The ELD problems have a very large search space and therefore it is difficult to find global optimum using analytical methods. The results of the proposed approach are very competitive compared with notable results from previous research.

Published

2021

5. Early Disease Classification of Mango Leaves Using Feed-Forward Neural Network and Hybrid Metaheuristic Feature Selection

Author

Tan Nhat Pham, Ly Van Tran, and Son Vu Truong Dao

Subjects

Neural network, image classification, plant disease, feature selection, precision agriculture, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Plant disease, especially crop plants, is a major threat to global food security since many diseases directly affect the quality of the fruits, grains, and so on, leading to a decrease in agricultural productivity. Farmers have to observe and determine whether a leaf was infected by naked eyes. This process is unreliable, inconsistent, and error prone. Several works on deep learning techniques for detecting leaf diseases had been proposed. Most of them built their models based on limited resolution images using convolutional neural networks (CNNs). In this research, we aim at detecting early disease on plant leaves with small disease blobs, which can only be detected with higher resolution images, by an artificial neural network (ANN) approach. After a pre-processing step using a contrast enhancement method, all the infested blobs are segmented for the whole dataset. A list of several measurement-based features that represents the blobs are chosen and then selected based on their influences on the model's performance using a wrapper-based feature selection algorithm, which is built based on a hybrid metaheuristic. The chosen features are used as inputs for an ANN. We compare the results obtained using our methods with another approach using popular CNN models (AlexNet, VGG16, ResNet-50) enhanced with transfer learning. The ANN's results are better than those of CNNs using a simpler network structure (89.41% vs 78.64%, 79.92%, and 84.88%, respectively). This shows that our approach can be implemented on low-end devices such as smartphones, which will be of great assistance to farmers on the field.

Published

2020

6. Bregman Proximal Linearized ADMM for Minimizing Separable Sums Coupled by a Difference of Functions.

Author

Tan Nhat Pham, Minh N. Dao, Andrew C. Eberhard, and Nargiz Sultanova

Published

2024

7. A proximal subgradient algorithm with extrapolation for structured nonconvex nonsmooth problems.

Author

Tan Nhat Pham, Minh N. Dao, Rakibuzzaman Shah, Nargiz Sultanova, Guoyin Li 0001, and Syed Mofizul Islam

Published

2023

8. A Novel Wrapper-Based Feature Selection for Early Diabetes Prediction Enhanced With a Metaheuristic.

Author

Minh Tuan Le, Minh Thanh Vo, Tan Nhat Pham, and Son Vu Truong Dao

Published

2021

9. Going green: predicting tourists' intentions to stay at eco-friendly hotels – the roles of green attitude and environmental concern

Author

Van Huy, Le, primary, Nguyen, Hien T.T., additional, Hoang Long, Phan, additional, Quyen Phu Thi, Phan, additional, and Tan Nhat, Pham, additional

Published

2023

10. A Hybrid Metaheuristic Algorithm for Intelligent Nurse Scheduling

Author

Tan Nhat Pham and Son V. T. Dao

Subjects

Mathematical optimization, Computer science, Nurse scheduling problem, Metaheuristic

Published

2021

11. Toward Smart Hospital: An Intelligent Personnel Scheduling Using Evolutionary Algorithms

Author

Tan Nhat Pham and Son Vu Truong Dao

Published

2022

12. Guest Online Review: An Extraordinary Focus on Hotel Users’ Satisfaction, Engagement, and Loyalty

Author

Lien H.L. Nguyen, Tan Nhat Pham, Nga Vo Thi, Zuzana Tučková, and Vo Viet Hung

Subjects

Focus (computing), Service quality, Tourism, Leisure and Hospitality Management, media_common.quotation_subject, Loyalty, Customer satisfaction, Advertising, Psychology, Hotel industry, Brand loyalty, media_common

Abstract

The article aims to heighten the impact of guest online reviews on the hotel industry. Its objective is to increase the volume of users on the degree of satisfaction for effective engagement and lo...

Published

2021

13. A Novel Wrapper–Based Feature Selection for Early Diabetes Prediction Enhanced With a Metaheuristic

Author

Son V. T. Dao, Thanh Minh Vo, Tuan Minh Le, and Tan Nhat Pham

Subjects

020205 medical informatics, General Computer Science, Computer science, business.industry, Feature extraction, General Engineering, Decision tree, Feature selection, 02 engineering and technology, Logistic regression, Machine learning, computer.software_genre, Random forest, Support vector machine, Multilayer perceptron, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, General Materials Science, Artificial intelligence, business, Metaheuristic, computer

Abstract

Diabetes leads to health problems for hundreds of millions of people globally every year. Available medical records of patients quantify symptoms, body features, and clinical laboratory test values, which can be used to perform biostatistics analysis aimed at finding patterns or features undetectable by current practice. In this work, we proposed a machine learning model to predict the early onset of diabetes patients. It is a novel wrapper-based feature selection utilizing Grey Wolf Optimization (GWO) and an Adaptive Particle Swam Optimization (APSO) to optimize the Multilayer Perceptron (MLP) to reduce the number of required input attributes. Moreover, we also compared the results achieved using this method and several conventional machine learning algorithms approaches such as Support Vector Machine (SVM), Decision Tree (DT), K-Nearest Neighbor (KNN), Naive Bayesian Classifier (NBC), Random Forest Classifier (RFC), Logistic Regression (LR). Computational results of our proposed method show not only that much fewer features are needed, but also higher prediction accuracy can be achieved (96% for GWO - MLP and 97% for APGWO - MLP). This work has the potential to be applicable to clinical practice and become a supporting tool for doctors/physicians.

Published

2021

14. A Novel Wrapper-Based Feature Selection for Heart Failure Prediction Using an Adaptive Particle Swarm Grey Wolf Optimization

Author

Son V. T. Dao, Tan Nhat Pham, and Tuan Minh Le

Subjects

Computer science, business.industry, Decision tree, Particle swarm optimization, Feature selection, Perceptron, Machine learning, computer.software_genre, Random forest, Set (abstract data type), Support vector machine, Multilayer perceptron, Artificial intelligence, business, computer

Abstract

Cardiovascular diseases kill approximately millions of people globally every year. Heart failure (HF) occurs when the heart cannot pump enough blood to meet the needs of the body. This means that the heart is overworked and unable to respond to the speed and demands of other activities. This will lead to fatigue and shortness of breath while performing daily activities. In this research, the authors apply a machine learning model to predict heart failure patients’ survival based on the original set of available medical features. Therefore, a novel wrapper-based feature selection utilizing an Adaptive Particle Swarm Grey Wolf Optimization (APSGWO) is proposed to enhance the architecture of Multilayer Perceptron (MLP) and reduce the number of required input attributes. Moreover, we also compared the results of our proposed method and several conventional machine learning models such as Support Vector Machine (SVM), Decision Tree (DT), K–Nearest Neighbor, Naive Bayesian Classifier (NBC), Random Forest (RF), and Logistic Regression (LR). The results of our method show not only that much fewer features are needed, but also higher accuracy can be accomplished, 81% for Adaptive Particle Swarm Grey Wolf Optimization—Multilayer Perceptron (APSGWO—MLP). This work can be applied in practice to become an effective tool to support the diagnosis for doctors.

Published

2021

15. A positive human health perspective on how spiritual leadership weaves its influence on employee safety performance: The role of harmonious safety passion

Author

Shahzad Aziz, Moazzam Ali, Tan Nhat Pham, Mayowa T. Babalola, and Muhammad Usman

Subjects

Employee safety, media_common.quotation_subject, 05 social sciences, Perspective (graphical), Applied psychology, 0211 other engineering and technologies, Public Health, Environmental and Occupational Health, Passion, 02 engineering and technology, Compliance (psychology), Human health, Turnover, 021105 building & construction, Safety behaviors, Survey data collection, 0501 psychology and cognitive sciences, Safety, Risk, Reliability and Quality, Psychology, Safety Research, 050107 human factors, media_common

Abstract

The present study examined the relationship of spiritual leadership with employees’ safety performance – safety compliance and safety participation. The study also proposed that harmonious safety passion mediates the positive associations of spiritual leadership with safety compliance and safety participation. Based on time-lagged survey data collected from 305 supervisor-employee dyads, the results revealed that spiritual leadership is positively associated with employees’ safety compliance and safety participation, both directly and indirectly, via harmonious safety passion. Our findings contribute to the literature by signifying the role of spiritual leadership and harmonious safety passion in shaping employees’ safety behaviors, which are beyond employees’ self-enactment of safety behaviors and include voluntary safety-related behaviors. The findings also carry useful practical implications for managers that can help them curb safety-related issues at work.

Published

2020