Your search keyword '"Jamtsho, Yeshi"' showing total 5 results

1. EEEA-Net: An Early Exit Evolutionary Neural Architecture Search

Author

Termritthikun, Chakkrit, Jamtsho, Yeshi, Ieamsaard, Jirarat, Muneesawang, Paisarn, and Lee, Ivan

Subjects

Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning, Computer Science - Neural and Evolutionary Computing

Abstract

The goals of this research were to search for Convolutional Neural Network (CNN) architectures, suitable for an on-device processor with limited computing resources, performing at substantially lower Network Architecture Search (NAS) costs. A new algorithm entitled an Early Exit Population Initialisation (EE-PI) for Evolutionary Algorithm (EA) was developed to achieve both goals. The EE-PI reduces the total number of parameters in the search process by filtering the models with fewer parameters than the maximum threshold. It will look for a new model to replace those models with parameters more than the threshold. Thereby, reducing the number of parameters, memory usage for model storage and processing time while maintaining the same performance or accuracy. The search time was reduced to 0.52 GPU day. This is a huge and significant achievement compared to the NAS of 4 GPU days achieved using NSGA-Net, 3,150 GPU days by the AmoebaNet model, and the 2,000 GPU days by the NASNet model. As well, Early Exit Evolutionary Algorithm networks (EEEA-Nets) yield network architectures with minimal error and computational cost suitable for a given dataset as a class of network algorithms. Using EEEA-Net on CIFAR-10, CIFAR-100, and ImageNet datasets, our experiments showed that EEEA-Net achieved the lowest error rate among state-of-the-art NAS models, with 2.46% for CIFAR-10, 15.02% for CIFAR-100, and 23.8% for ImageNet dataset. Further, we implemented this image recognition architecture for other tasks, such as object detection, semantic segmentation, and keypoint detection tasks, and, in our experiments, EEEA-Net-C2 outperformed MobileNet-V3 on all of these various tasks. (The algorithm code is available at https://github.com/chakkritte/EEEA-Net)., Comment: Published at Engineering Applications of Artificial Intelligence; Code and pretrained models available at https://github.com/chakkritte/EEEA-Net

Published

2021

2. On-device facial verification using NUF-Net model of deep learning

Author

Termritthikun, Chakkrit, Jamtsho, Yeshi, and Muneesawang, Paisarn

Published

2019

3. Dzongkha to English translation using the neural machine translation approach

Author

Wangchuk, Karma, primary, Chinnaudayar Navaneethakrishnan, Subalalitha, additional, Jamtsho, Yeshi, additional, and Wangchuk, Yeshi, additional

Published

2023

4. EEEA-Net: An Early Exit Evolutionary Neural Architecture Search

Author

Termritthikun, Chakkrit, primary, Jamtsho, Yeshi, additional, Ieamsaard, Jirarat, additional, Muneesawang, Paisarn, additional, and Lee, Ivan, additional

Published

2021

5. EEEA-Net: An Early Exit Evolutionary Neural Architecture Search

Author

Ivan Lee, Paisarn Muneesawang, Yeshi Jamtsho, Chakkrit Termritthikun, Jirarat Ieamsaard, Termritthikun, Chakkrit, Jamtsho, Yeshi, Ieamsaard, Jirarat, Muneesawang, Paisarn, and Lee, Ivan

Subjects

FOS: Computer and information sciences, Computer Science - Machine Learning, Computer science, Process (engineering), Computer Vision and Pattern Recognition (cs.CV), Population, Computer Science - Computer Vision and Pattern Recognition, Evolutionary algorithm, Word error rate, Machine learning, computer.software_genre, Convolutional neural network, Machine Learning (cs.LG), Artificial Intelligence, Segmentation, Neural and Evolutionary Computing (cs.NE), Electrical and Electronic Engineering, education, education.field_of_study, Network architecture, business.industry, Computer Science - Neural and Evolutionary Computing, deep learning, Object detection, neural architecture search, Control and Systems Engineering, Artificial intelligence, business, computer, multi-objective evolutionary algorithms, image classification

Abstract

The goals of this research were to search for Convolutional Neural Network (CNN) architectures, suitable for an on-device processor with limited computing resources, performing at substantially lower Network Architecture Search (NAS) costs. A new algorithm entitled an Early Exit Population Initialisation (EE-PI) for Evolutionary Algorithm (EA) was developed to achieve both goals. The EE-PI reduces the total number of parameters in the search process by filtering the models with fewer parameters than the maximum threshold. It will look for a new model to replace those models with parameters more than the threshold. Thereby, reducing the number of parameters, memory usage for model storage and processing time while maintaining the same performance or accuracy. The search time was reduced to 0.52 GPU day. This is a huge and significant achievement compared to the NAS of 4 GPU days achieved using NSGA-Net, 3,150 GPU days by the AmoebaNet model, and the 2,000 GPU days by the NASNet model. As well, Early Exit Evolutionary Algorithm networks (EEEA-Nets) yield network architectures with minimal error and computational cost suitable for a given dataset as a class of network algorithms. Using EEEA-Net on CIFAR-10, CIFAR-100, and ImageNet datasets, our experiments showed that EEEA-Net achieved the lowest error rate among state-of-the-art NAS models, with 2.46% for CIFAR-10, 15.02% for CIFAR-100, and 23.8% for ImageNet dataset. Further, we implemented this image recognition architecture for other tasks, such as object detection, semantic segmentation, and keypoint detection tasks, and, in our experiments, EEEA-Net-C2 outperformed MobileNet-V3 on all of these various tasks. (The algorithm code is available at https://github.com/chakkritte/EEEA-Net)., Comment: Published at Engineering Applications of Artificial Intelligence; Code and pretrained models available at https://github.com/chakkritte/EEEA-Net

Published

2021