Implementation of low sampling rate algorithm

Compressed learning integrates signal processing together with machine learning for inference from a signal with minimal measurements from a linear projection. Traditional image classification models learn directly from training images that are only processed for image augmentation and reshaping to...

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Main Author: Tan, Michael Teck Xin
Other Authors: Erry Gunawan
Format: Final Year Project
Language:English
Published: Nanyang Technological University 2022
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Online Access:https://hdl.handle.net/10356/157380
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Institution: Nanyang Technological University
Language: English
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spelling sg-ntu-dr.10356-1573802023-07-07T19:10:49Z Implementation of low sampling rate algorithm Tan, Michael Teck Xin Erry Gunawan School of Electrical and Electronic Engineering EGUNAWAN@ntu.edu.sg Engineering::Electrical and electronic engineering Compressed learning integrates signal processing together with machine learning for inference from a signal with minimal measurements from a linear projection. Traditional image classification models learn directly from training images that are only processed for image augmentation and reshaping to fit the models. When these models are trained with a large number of images, it is highly inefficient as it could take extremely long durations of time to train or require a very powerful computer to complete the process. From previous reports that I reviewed for my literature review in chapter 2, some methods have been suggested to tackle this issue. The suggested solutions includes the usage of compressed learning and compressed sensing, which generally follows the same idea which is to reduce the amount of samples required to be taken from a signal or image to achieve an objective. In chapter 3, the theory of compressed sensing and compressed learning have been described in detail to show how they are made use of to achieve low sampling rates. In chapter 4, I briefly explained the theory of machine learning and proposed the most accurate image classification model within my means, Inception ResNetV2, that was able to achieve about 99% classification accuracy when trained on non-compressed domains. Furthermore, I described in detail the theory behind Principal Components Analysis (PCA), which I made use to compress the images for training and testing purposes. In chapter 5, I first reviewed the results of the machine learning model by testing it against images in the uncompressed domain, ensuring that the model is still competitive by achieving a precision of 97%. After this, I tested the image classification model against a test set with images in the compressed domain and achieved a high precision of 95%. Lastly, I reviewed the images that were wrongly predicted and provided suggestions for future works that could potentially improve the model further. Bachelor of Engineering (Electrical and Electronic Engineering) 2022-05-14T11:21:19Z 2022-05-14T11:21:19Z 2022 Final Year Project (FYP) Tan, M. T. X. (2022). Implementation of low sampling rate algorithm. Final Year Project (FYP), Nanyang Technological University, Singapore. https://hdl.handle.net/10356/157380 https://hdl.handle.net/10356/157380 en A3074-211 application/pdf Nanyang Technological University
institution Nanyang Technological University
building NTU Library
continent Asia
country Singapore
Singapore
content_provider NTU Library
collection DR-NTU
language English
topic Engineering::Electrical and electronic engineering
spellingShingle Engineering::Electrical and electronic engineering
Tan, Michael Teck Xin
Implementation of low sampling rate algorithm
description Compressed learning integrates signal processing together with machine learning for inference from a signal with minimal measurements from a linear projection. Traditional image classification models learn directly from training images that are only processed for image augmentation and reshaping to fit the models. When these models are trained with a large number of images, it is highly inefficient as it could take extremely long durations of time to train or require a very powerful computer to complete the process. From previous reports that I reviewed for my literature review in chapter 2, some methods have been suggested to tackle this issue. The suggested solutions includes the usage of compressed learning and compressed sensing, which generally follows the same idea which is to reduce the amount of samples required to be taken from a signal or image to achieve an objective. In chapter 3, the theory of compressed sensing and compressed learning have been described in detail to show how they are made use of to achieve low sampling rates. In chapter 4, I briefly explained the theory of machine learning and proposed the most accurate image classification model within my means, Inception ResNetV2, that was able to achieve about 99% classification accuracy when trained on non-compressed domains. Furthermore, I described in detail the theory behind Principal Components Analysis (PCA), which I made use to compress the images for training and testing purposes. In chapter 5, I first reviewed the results of the machine learning model by testing it against images in the uncompressed domain, ensuring that the model is still competitive by achieving a precision of 97%. After this, I tested the image classification model against a test set with images in the compressed domain and achieved a high precision of 95%. Lastly, I reviewed the images that were wrongly predicted and provided suggestions for future works that could potentially improve the model further.
author2 Erry Gunawan
author_facet Erry Gunawan
Tan, Michael Teck Xin
format Final Year Project
author Tan, Michael Teck Xin
author_sort Tan, Michael Teck Xin
title Implementation of low sampling rate algorithm
title_short Implementation of low sampling rate algorithm
title_full Implementation of low sampling rate algorithm
title_fullStr Implementation of low sampling rate algorithm
title_full_unstemmed Implementation of low sampling rate algorithm
title_sort implementation of low sampling rate algorithm
publisher Nanyang Technological University
publishDate 2022
url https://hdl.handle.net/10356/157380
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