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Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †

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Zeitschriftentitel: Sensors
Personen und Körperschaften: Mendez, Efrain, Ortiz, Alexandro, Ponce, Pedro, Acosta, Juan, Molina, Arturo
In: Sensors, 19, 2019, 14, S. 3110
Format: E-Article
Sprache: Englisch
veröffentlicht:
MDPI AG
Schlagwörter:
Electrical and Electronic Engineering
Biochemistry
Instrumentation
Atomic and Molecular Physics, and Optics
Analytical Chemistry
author_facet Mendez, Efrain
Ortiz, Alexandro
Ponce, Pedro
Acosta, Juan
Molina, Arturo
Mendez, Efrain
Ortiz, Alexandro
Ponce, Pedro
Acosta, Juan
Molina, Arturo
author Mendez, Efrain
Ortiz, Alexandro
Ponce, Pedro
Acosta, Juan
Molina, Arturo
spellingShingle Mendez, Efrain
Ortiz, Alexandro
Ponce, Pedro
Acosta, Juan
Molina, Arturo
Sensors
Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
Electrical and Electronic Engineering
Biochemistry
Instrumentation
Atomic and Molecular Physics, and Optics
Analytical Chemistry
author_sort mendez, efrain
spelling Mendez, Efrain Ortiz, Alexandro Ponce, Pedro Acosta, Juan Molina, Arturo 1424-8220 MDPI AG Electrical and Electronic Engineering Biochemistry Instrumentation Atomic and Molecular Physics, and Optics Analytical Chemistry http://dx.doi.org/10.3390/s19143110 <jats:p>Artificial neural networks (ANN) are widely used to classify high non-linear systems by using a set of input/output data. Moreover, they are trained using several optimization methodologies and this paper presents a novel algorithm for training ANN through an earthquake optimization method. Usually, gradient optimization method is implemented for the training process, with perhaps the large number of iterations leading to slow convergence, and not always achieving the optimal solution. Since metaheuristic optimization methods deal with searching for weight values in a broad optimization space, the training computational effort is reduced and ensures an optimal solution. This work shows an efficient training process that is a suitable solution for detection of mobile phone usage while driving. The main advantage of training ANN using the Earthquake Algorithm (EA) lies in its versatility to search in a fine or aggressive way, which extends its field of application. Additionally, a basic example of a linear classification is illustrated using the proposal-training method, so the number of applications could be expanded to nano-sensors, such as reversible logic circuit synthesis in which a genetic algorithm had been implemented. The fine search is important for the studied logic gate emulation due to the small searching areas for the linear separation, also demonstrating the convergence capabilities of the algorithm. Experimental results validate the proposed method for smart mobile phone applications that also can be applied for optimization applications.</jats:p> Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm † Sensors
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title Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_unstemmed Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_full Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_fullStr Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_full_unstemmed Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_short Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_sort mobile phone usage detection by ann trained with a metaheuristic algorithm †
topic Electrical and Electronic Engineering
Biochemistry
Instrumentation
Atomic and Molecular Physics, and Optics
Analytical Chemistry
url http://dx.doi.org/10.3390/s19143110
publishDate 2019
physical 3110
description <jats:p>Artificial neural networks (ANN) are widely used to classify high non-linear systems by using a set of input/output data. Moreover, they are trained using several optimization methodologies and this paper presents a novel algorithm for training ANN through an earthquake optimization method. Usually, gradient optimization method is implemented for the training process, with perhaps the large number of iterations leading to slow convergence, and not always achieving the optimal solution. Since metaheuristic optimization methods deal with searching for weight values in a broad optimization space, the training computational effort is reduced and ensures an optimal solution. This work shows an efficient training process that is a suitable solution for detection of mobile phone usage while driving. The main advantage of training ANN using the Earthquake Algorithm (EA) lies in its versatility to search in a fine or aggressive way, which extends its field of application. Additionally, a basic example of a linear classification is illustrated using the proposal-training method, so the number of applications could be expanded to nano-sensors, such as reversible logic circuit synthesis in which a genetic algorithm had been implemented. The fine search is important for the studied logic gate emulation due to the small searching areas for the linear separation, also demonstrating the convergence capabilities of the algorithm. Experimental results validate the proposed method for smart mobile phone applications that also can be applied for optimization applications.</jats:p>
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author Mendez, Efrain, Ortiz, Alexandro, Ponce, Pedro, Acosta, Juan, Molina, Arturo
author_facet Mendez, Efrain, Ortiz, Alexandro, Ponce, Pedro, Acosta, Juan, Molina, Arturo, Mendez, Efrain, Ortiz, Alexandro, Ponce, Pedro, Acosta, Juan, Molina, Arturo
author_sort mendez, efrain
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description <jats:p>Artificial neural networks (ANN) are widely used to classify high non-linear systems by using a set of input/output data. Moreover, they are trained using several optimization methodologies and this paper presents a novel algorithm for training ANN through an earthquake optimization method. Usually, gradient optimization method is implemented for the training process, with perhaps the large number of iterations leading to slow convergence, and not always achieving the optimal solution. Since metaheuristic optimization methods deal with searching for weight values in a broad optimization space, the training computational effort is reduced and ensures an optimal solution. This work shows an efficient training process that is a suitable solution for detection of mobile phone usage while driving. The main advantage of training ANN using the Earthquake Algorithm (EA) lies in its versatility to search in a fine or aggressive way, which extends its field of application. Additionally, a basic example of a linear classification is illustrated using the proposal-training method, so the number of applications could be expanded to nano-sensors, such as reversible logic circuit synthesis in which a genetic algorithm had been implemented. The fine search is important for the studied logic gate emulation due to the small searching areas for the linear separation, also demonstrating the convergence capabilities of the algorithm. Experimental results validate the proposed method for smart mobile phone applications that also can be applied for optimization applications.</jats:p>
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spelling Mendez, Efrain Ortiz, Alexandro Ponce, Pedro Acosta, Juan Molina, Arturo 1424-8220 MDPI AG Electrical and Electronic Engineering Biochemistry Instrumentation Atomic and Molecular Physics, and Optics Analytical Chemistry http://dx.doi.org/10.3390/s19143110 <jats:p>Artificial neural networks (ANN) are widely used to classify high non-linear systems by using a set of input/output data. Moreover, they are trained using several optimization methodologies and this paper presents a novel algorithm for training ANN through an earthquake optimization method. Usually, gradient optimization method is implemented for the training process, with perhaps the large number of iterations leading to slow convergence, and not always achieving the optimal solution. Since metaheuristic optimization methods deal with searching for weight values in a broad optimization space, the training computational effort is reduced and ensures an optimal solution. This work shows an efficient training process that is a suitable solution for detection of mobile phone usage while driving. The main advantage of training ANN using the Earthquake Algorithm (EA) lies in its versatility to search in a fine or aggressive way, which extends its field of application. Additionally, a basic example of a linear classification is illustrated using the proposal-training method, so the number of applications could be expanded to nano-sensors, such as reversible logic circuit synthesis in which a genetic algorithm had been implemented. The fine search is important for the studied logic gate emulation due to the small searching areas for the linear separation, also demonstrating the convergence capabilities of the algorithm. Experimental results validate the proposed method for smart mobile phone applications that also can be applied for optimization applications.</jats:p> Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm † Sensors
spellingShingle Mendez, Efrain, Ortiz, Alexandro, Ponce, Pedro, Acosta, Juan, Molina, Arturo, Sensors, Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †, Electrical and Electronic Engineering, Biochemistry, Instrumentation, Atomic and Molecular Physics, and Optics, Analytical Chemistry
title Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_full Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_fullStr Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_full_unstemmed Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_short Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
title_sort mobile phone usage detection by ann trained with a metaheuristic algorithm †
title_unstemmed Mobile Phone Usage Detection by ANN Trained with a Metaheuristic Algorithm †
topic Electrical and Electronic Engineering, Biochemistry, Instrumentation, Atomic and Molecular Physics, and Optics, Analytical Chemistry
url http://dx.doi.org/10.3390/s19143110