Showing total 7,611 results

1. COVID-19 disease diagnosis from paper-based ECG trace image data using a novel convolutional neural network model

Author

Irmak, Emrah

Published

2022

2. One-Dimensional Convolutional Neural Networks with Infrared Spectroscopy for Classifying the Origin of Printing Paper.

Author

Sung-Wook Hwang, Geungyong Park, Jinho Kim, Kwang-Ho Kang, and Won-Hee Lee

Subjects

*CONVOLUTIONAL neural networks, *INFRARED spectroscopy, *SUPPORT vector machines, *MACHINE learning

Abstract

Herein, the challenge of accurately classifying the manufacturing origin of printing paper, including continent, country, and specific product, was addressed. One-dimensional convolutional neural network (1D CNN) models trained on infrared (IR) spectrum data acquired from printing paper samples were used for the task. The preprocessing of the IR spectra through a second-derivative transformation and the restriction of the spectral range to 1800 to 1200 cm-1 improved the classification performance of the model. The outcomes were highly promising. Models trained on second-derivative IR spectra in the 1800 to 1200-cm-1 range exhibited perfect classification for the manufacturing continent and country, with an impressive F1 score of 0.980 for product classification. Notably, the developed 1D CNN model outperformed traditional machine learning classifiers, such as support vector machines and feed-forward neural networks. In addition, the application of data point attribution enhanced the transparency of the decision-making process of the model, offering insights into the spectral patterns that affect classification. This study makes a considerable contribution to printing paper classification, with potential implications for accurate origin identification in various fields. [ABSTRACT FROM AUTHOR]

Published

2024

3. Deep Learning for 3D Reconstruction, Augmentation, and Registration: A Review Paper.

Author

Vinodkumar, Prasoon Kumar, Karabulut, Dogus, Avots, Egils, Ozcinar, Cagri, and Anbarjafari, Gholamreza

Subjects

*DEEP learning, *COMPUTER vision, *GRAPH neural networks, *ARTIFICIAL intelligence, *MACHINE learning, *GENERATIVE adversarial networks

Abstract

The research groups in computer vision, graphics, and machine learning have dedicated a substantial amount of attention to the areas of 3D object reconstruction, augmentation, and registration. Deep learning is the predominant method used in artificial intelligence for addressing computer vision challenges. However, deep learning on three-dimensional data presents distinct obstacles and is now in its nascent phase. There have been significant advancements in deep learning specifically for three-dimensional data, offering a range of ways to address these issues. This study offers a comprehensive examination of the latest advancements in deep learning methodologies. We examine many benchmark models for the tasks of 3D object registration, augmentation, and reconstruction. We thoroughly analyse their architectures, advantages, and constraints. In summary, this report provides a comprehensive overview of recent advancements in three-dimensional deep learning and highlights unresolved research areas that will need to be addressed in the future. [ABSTRACT FROM AUTHOR]

Published

2024

4. hxtorch: PyTorch for BrainScaleS-2 : Perceptrons on Analog Neuromorphic Hardware

Author

Spilger, Philipp, Müller, Eric, Emmel, Arne, Leibfried, Aron, Mauch, Christian, Pehle, Christian, Weis, Johannes, Breitwieser, Oliver, Billaudelle, Sebastian, Schmitt, Sebastian, Wunderlich, Timo C., Stradmann, Yannik, Schemmel, Johannes, Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Gama, Joao, editor, Pashami, Sepideh, editor, Bifet, Albert, editor, Sayed-Mouchawe, Moamar, editor, Fröning, Holger, editor, Pernkopf, Franz, editor, Schiele, Gregor, editor, and Blott, Michaela, editor

Published

2020

5. Rapid segmentation and sensitive analysis of CRP with paper-based microfluidic device using machine learning.

Author

Ning, Qihong, Zheng, Wei, Xu, Hao, Zhu, Armando, Li, Tangan, Cheng, Yuemeng, Feng, Shaoqing, Wang, Li, Cui, Daxiang, and Wang, Kan

Subjects

*MACHINE learning, *MICROFLUIDIC devices, *SIGNAL convolution, *C-reactive protein, *CONVOLUTIONAL neural networks, *CLASSIFICATION algorithms

Abstract

Microfluidic paper-based analytical devices (μPADs) have been widely used in point-of-care testing owing to their simple operation, low volume of the sample required, and the lack of the need for an external force. To obtain accurate semi-quantitative or quantitative results, μPADs need to respond to the challenges posed by differences in reaction conditions. In this paper, multi-layer μPADs are fabricated by the imprinting method for the colorimetric detection of C-reactive protein (CRP). Different lighting conditions and shooting angles of scenes are simulated in image acquisition, and the detection-related performance of μPADs is improved by using a machine learning algorithm. The You Only Look Once (YOLO) model is used to identify the areas of reaction in μPADs. This model can observe an image only once to predict the objects present in it and their locations. The YOLO model trained in this study was able to identify all the reaction areas quickly without incurring any error. These reaction areas were categorized by classification algorithms to determine the risk level of CRP concentration. Multi-layer perceptron, convolutional neural network, and residual network algorithms were used for the classification tasks, where the latter yielded the highest accuracy of 96%. It has a promising application prospect in fast recognition and analysis of μPADs. [ABSTRACT FROM AUTHOR]

Published

2022

6. Content‐based and knowledge graph‐based paper recommendation: Exploring user preferences with the knowledge graphs for scientific paper recommendation.

Author

Tang, Hao, Liu, Baisong, and Qian, Jiangbo

Subjects

KNOWLEDGE graphs, SCIENTIFIC knowledge, DEEP learning, CONVOLUTIONAL neural networks, MACHINE learning, RECOMMENDER systems, USER-generated content

Abstract

Researchers usually face difficulties in finding scientific papers relevant to their research interests due to increasing growth. Recommender systems emerge as a leading solution to filter valuable items intelligently. Recently, deep learning algorithms, such as convolutional neural network, improved traditional recommendation technologies, for example, the graph‐based or content‐based methods. However, existing graph‐based methods ignore high‐order association between users and items on graphs, and content‐based methods ignore global features of texts for explicit user preferences. Therefore, this paper proposes a Content‐based and knowledge Graph‐based Paper Recommendation method (CGPRec), which uses a two‐layer self‐attention block to obtain global features of texts for more complete explicit user preferences, and proposes an improved graph convolutional network for modeling high‐order associations on the knowledge graph to mine implicit user preferences. And the knowledge graph in this paper is constructed with concept nodes, user nodes, paper nodes, and other meta‐data nodes. Experimental results on a public dataset, CiteULike‐a, and a real application log dataset, AHData, show that our model outperforms compared with baseline methods. [ABSTRACT FROM AUTHOR]

Published

2021

7. Enhanced 3-D asynchronous correlation data preprocessing method for Raman spectroscopy of Chinese handmade paper.

Author

Yan, Chunsheng, Cheng, Zhongyi, Cao, Linquan, and Wen, Yingke

Subjects

*MACHINE learning, *RAMAN spectroscopy, *CONVOLUTIONAL neural networks, *HILBERT transform, *DATA structures

Abstract

[Display omitted] • 3D-ACM involves two rounds of Hilbert transform and tensor product operations. • It significantly enhances the equivalent frequency points and sample numbers. • The R-squared values for PLS-LR, KNN, RF and CNN models approach or equal 1. • These supervised models are comparable to unsupervised models such as PCA-LR. We have developed a novel 3D asynchronous correlation method (3D-ACM) designed for the classification and identification of Chinese handmade paper samples using Raman spectra and machine learning. The 3D-ACM approach involves two rounds of tensor product and Hilbert transform operations. In the tensor product process, the outer product of the spectral data from different samples within the same category is computed, establishing inner connections among all samples within that category. The Hilbert transform introduces a 90-degree phase shift, resulting in a true three-dimensional spectral data structure. This expansion significantly increases the number of equivalent frequency points and samples within each category. This enhancement substantially boosts spectral resolution and reveals more hidden information within the spectral data. To maximize the potential of 3D-ACM, we employed six machine learning models: principal component analysis (PCA) with linear regression (LR), support vector machine (SVM) with LR, k-Nearest Neighbors (KNN), random forest (RF), and convolutional neural network (CNN). When applied to the 3D-ACM data preprocessing method, R-squared values of PLS-LR, KNN, RF and CNN supervised models, approached or equaled 1. This indicates exceptional performance comparable to unsupervised models like PCA. 3D-ACM stands as a versatile mathematical technique not confined to spectral data. It also eliminates the necessity for additional experimental setups or external control conditions, distinct from traditional two-dimensional correlation spectroscopy. Moreover, it preserves the original experimental data, setting it apart from conventional data preprocessing methods. This positions 3D-ACM as a promising tool for future material classification and identification in conjunction with machine learning. [ABSTRACT FROM AUTHOR]

Published

2024

8. Machine learning and engineering feature approaches to detect events perturbing the indoor microclimate in Ringebu and Heddal stave churches (Norway)

Author

Miglioranza, Pietro, Scanu, Andrea, Simionato, Giuseppe, Sinigaglia, Nicholas, and Califano, America

Published

2024

9. Utilising Machine Learning Techniques For Waste Management.

Author

Tripathy, Jyotsnarani, Das, Manmathnath, and Ojha, Rajesh Kumar

Subjects

WASTE management, MACHINE learning, WASTE paper, CONVOLUTIONAL neural networks, CITY dwellers

Abstract

Waste management is one of the biggest challenges facing the world today. The amount of solid garbage created by the growing urban population makes it hard to manage with current technologies. Artificial intelligence methods are used in this paper to identify waste. When waste is found, the system uses the camera as the only data source to determine its location. With greater than 95% certainty, the suggested system can discern between assets and waste in real time.The paper concludes by describing a system that can inspect and gather waste much like a human would. Different programs have been launched by the current Indian government to improve cleanliness and hygienic conditions. Megacities in India, for example, Ahmedabad, Hyderabad, Bangalore, Chennai, Kolkata, Delhi and more noteworthy Mumbai have dynamic monetary development and high wastage per capita. Scratch issues and difficulties such as absence of gathering and isolation at source, shortage of land, dumping of e-Waste, and so on. By using physical labour, the current waste accumulation framework compiles a variety of waste in an unsorted manner. The separation of this waste is a very repetitious, time-consuming, and wasteful task that frequently threatens the safety of the professionals.n order for the junk transfer to be carried out efficiently and productively, a framework that automates the waste isolation process is therefore required. The proposed approach accurately categories the loss into degradable and non-degradable using machine learning techniques like CNN. [ABSTRACT FROM AUTHOR]

Published

2023

10. Review Paper on Enhancing Communication: Machine Learning for Live Sign-to-Text Translation.

Author

Rangari, Aditya, Bhide, Devendra, More, Vaibhav, Wahurwagh, Kunal, Shirbhate, Dhiraj, and Andhare, Chetan

Subjects

MACHINE learning, INTERPERSONAL communication, NATURAL language processing, CONVOLUTIONAL neural networks, SIGN language, COMPUTER vision

Abstract

For those who are deaf or hard of hearing, sign language is essential as their main form of communication. using ease, sign language gestures may be translated into written or spoken words in real time using the Sign Language Translator, and vice versa. This system interprets and communicates sign language gestures by utilising computer vision and natural language processing (NLP). Given that sign language uses a wide range of hand movements to communicate meaning, it might be difficult to identify certain motions by looking for patterns. Individuals communicate and engage using a variety of gestures. In this study, a human-computer interface that can recognise motions in sign language and properly translate them into text is shown. The suggested method improves interpersonal communication by using convolutional neural networks and long short-term memory networks for gesture interpretation and detection. [ABSTRACT FROM AUTHOR]

Published

2024

11. Computational pathology definitions, best practices, and recommendations for regulatory guidance: a white paper from the Digital Pathology Association.

Author

Abels, Esther, Pantanowitz, Liron, Aeffner, Famke, Zarella, Mark D, Laak, Jeroen, Bui, Marilyn M, Vemuri, Venkata NP, Parwani, Anil V, Gibbs, Jeff, Agosto‐Arroyo, Emmanuel, Beck, Andrew H, and Kozlowski, Cleopatra

Subjects

ELECTRONIC paper, BEST practices, ARTIFICIAL neural networks, PATHOLOGY

Abstract

In this white paper, experts from the Digital Pathology Association (DPA) define terminology and concepts in the emerging field of computational pathology, with a focus on its application to histology images analyzed together with their associated patient data to extract information. This review offers a historical perspective and describes the potential clinical benefits from research and applications in this field, as well as significant obstacles to adoption. Best practices for implementing computational pathology workflows are presented. These include infrastructure considerations, acquisition of training data, quality assessments, as well as regulatory, ethical, and cyber‐security concerns. Recommendations are provided for regulators, vendors, and computational pathology practitioners in order to facilitate progress in the field. © 2019 The Authors. The Journal of Pathology published by John Wiley & Sons Ltd on behalf of Pathological Society of Great Britain and Ireland. [ABSTRACT FROM AUTHOR]

Published

2019

12. Guest Editorial: Artificial intelligence‐empowered reliable forecasting for energy sectors.

Author

Mahmoud, Karar, Guerrero, Josep M., Abdel‐Nasser, Mohamed, and Yorino, Naoto

Subjects

ENERGY industries, ARTIFICIAL neural networks, MACHINE learning, FORECASTING, QUANTILE regression, CONVOLUTIONAL neural networks, DEMAND forecasting

Abstract

This document is a guest editorial from the journal IET Generation, Transmission & Distribution. It discusses the use of artificial intelligence (AI) in reliable forecasting for energy sectors. The editorial highlights the challenges of integrating renewable energy sources and fluctuating electricity demand, and emphasizes the importance of accurate forecasting for system operators. The document also provides summaries of several papers included in a special issue on AI-empowered forecasting in energy sectors, covering topics such as load forecasting, wind power prediction, and control parameter optimization. The editorial concludes by recommending further research and practical implementations of AI approaches in the energy sectors. [Extracted from the article]

Published

2024

13. Survey Paper on Stock Prediction Using Machine Learning Algorithms.

Author

Shewalkar, Amol Jeewanrao and Gupta, Bijendra

Subjects

MACHINE learning, STOCK exchanges, TIME series analysis, STOCK prices, CONVOLUTIONAL neural networks

Abstract

Stock Market Prediction is a challenging and trending topic for researchers in recent years. Although it contains significant risk, it is frequently utilized in investment schemes that promise big returns. The returns on stocks are quite erratic. They are influenced by a number of variables, including prior stock prices, current market trends, financial news, social media, etc. There are many methods used to forecast stock value, including technical analysis, fundamental analysis, time series analysis, and statistical analysis, however none of these methods has been demonstrated to be a reliable forecasting method. In order to improve the accuracy of stock price prediction, a variety of machine learning approaches and algorithms are examined in this study. [ABSTRACT FROM AUTHOR]

Published

2023

14. Review on Machine Learning-based Defect Detection of Shield Tunnel Lining.

Author

Guixing Kuang, Bixiong Li, Site Mo, Xiangxin Hu, and Lianghui Li

Subjects

TUNNEL lining, CONVOLUTIONAL neural networks, SUPPORT vector machines, MACHINE learning, PAPER arts

Abstract

At present, machine learning methods are widely used in various industries for their high adaptability, optimization function, and self-learning reserve function. Besides, the world-famous cities have almost built and formed subway networks that promote economic development. This paper presents the art states of Defect detection of Shield Tunnel lining based on Machine learning (DSTM). In addition, the processing method of image data from the shield tunnel is being explored to adapt to its complex environment. Comparison and analysis are used to show the performance of the algorithms in terms of the effects of data set establishment, algorithm selection, and detection devices. Based on the analysis results, Convolutional Neural Network methods show high recognition accuracy and better adaptability to the complexity of the environment in the shield tunnel compared to traditional machine learning methods. The Support Vector Machine algorithms show high recognition performance only for small data sets. To improve detection models and increase detection accuracy, measures such as optimizing features, fusing algorithms, creating a high-quality data set, increasing the sample size, and using devices with high detection accuracy can be recommended. Finally, we analyze the challenges in the field of coupling DSTM, meanwhile, the possible development direction of DSTM is prospected. [ABSTRACT FROM AUTHOR]

Published

2022

15. Community Discovery Algorithm Based on Multi-Relationship Embedding.

Author

Dongming Chen, Mingshuo Nie, Jie Wang, and Dongqi Wang

Subjects

EMBEDDED computer systems, ALGORITHMS, MATRICES (Mathematics), CONVOLUTIONAL neural networks, MACHINE learning

Abstract

Complex systems in the real world often can be modeled as network structures, and community discovery algorithms for complex networks enable researchers to understand the internal structure and implicit information of networks. Existing community discovery algorithms are usually designed for single-layer networks or single-interaction relationships and do not consider the attribute information of nodes. However, many real-world networks consist of multiple types of nodes and edges, and there may be rich semantic information on nodes and edges. The methods for single-layer networks cannot effectively tackle multi-layer information, multi-relationship information, and attribute information. This paper proposes a community discovery algorithm based on multi-relationship embedding. The proposed algorithm first models the nodes in the network to obtain the embedding matrix for each node relationship type and generates the node embedding matrix for each specific relationship type in the network by node encoder. The node embedding matrix is provided as input for aggregating the node embedding matrix of each specific relationship type using a Graph Convolutional Network (GCN) to obtain the final node embedding matrix. This strategy allows capturing of rich structural and attributes information in multi-relational networks. Experiments were conducted on different datasets with baselines, and the results show that the proposed algorithm obtains significant performance improvement in community discovery, node clustering, and similarity search tasks, and compared to the baseline with the best performance, the proposed algorithm achieves an average improvement of 3.1% on Macro-F1 and 4.7% on Micro-F1, which proves the effectiveness of the proposed algorithm. [ABSTRACT FROM AUTHOR]

Published

2023

16. A Conditionally Anonymous Linkable Ring Signature for Blockchain Privacy Protection.

Author

Quan Zhou, Yulong Zheng, Minhui Chen, and Kaijun Wei

Subjects

BLOCKCHAINS, ARTIFICIAL intelligence, ARTIFICIAL neural networks, CONVOLUTIONAL neural networks, MACHINE learning

Abstract

In recent years, the issue of preserving the privacy of parties involved in blockchain transactions has garnered significant attention. To ensure privacy protection for both sides of the transaction, many researchers are using ring signature technology instead of the original signature technology. However, in practice, identifying the signer of anillegal blockchain transactiononce ithas beenplacedon the chainnecessitates a signature technique that offers conditional anonymity. Some illegals can conduct illegal transactions and evade the lawusing ring signatures,which offer perfect anonymity. This paper firstly constructs a conditionally anonymous linkable ring signature using the Diffie-Hellman key exchange protocol and the Elliptic Curve Discrete Logarithm, which offers a non-interactive process for finding the signer of a ring signature in a specific case. Secondly, this paper's proposed scheme is proven correct and secure under Elliptic Curve Discrete Logarithm Assumptions. Lastly, compared to previous constructions, the scheme presented in this paper provides a non-interactive, efficient, and secure confirmation process. In addition, this paper presents the implementation of the proposed scheme on a personal computer, where the confirmation process takes only 2, 16, and 24ms for ring sizes of 4, 24 and 48, respectively, and the confirmation process can be combined with a smart contract on the blockchain with a tested millisecond level of running efficiency. In conclusion, the proposed scheme offers a solution to the challenge of identifying the signer of an illegal blockchain transaction, making it an essential contribution to the field. [ABSTRACT FROM AUTHOR]

Published

2023

17. Examining deep learning's capability to spot code smells: a systematic literature review.

Author

Malhotra, Ruchika, Jain, Bhawna, and Kessentini, Marouane

Subjects

DEEP learning, SMELL, RECURRENT neural networks, CONVOLUTIONAL neural networks, COMPUTER software development, MACHINE learning

Abstract

Code smells violate software development principles that make the software more prone to errors and changes. Researchers have developed code smell detectors using manual and semi-automatic methods to identify these issues. However, three key challenges have limited the practical use of these detectors: developers' subjective perceptions of code smells, lack of consensus in the detection process, and difficulty in setting appropriate detection thresholds. While code smell detection using machine learning has progressed significantly, there still appears to be a gap in understanding the effective utilization of deep learning (DL) approaches. This paper aims to review and identify current methods for code smell detection using DL techniques. A systematic literature review is conducted on 35 primary studies from a collection of 8739 publications between 2013 and the present. The analysis reveals that common code smells detected include Feature Envy, God Classes, Long Methods, Complex Classes, and Large Classes. The most popular DL algorithms used are Recurrent Neural Networks (RNN) and Convolutional Neural Networks (CNN), often combined with other techniques for better results. Algorithms that train models on large datasets with fewer independent variables demonstrate exemplary performance. The paper also highlights open issues and provides guidelines for future metric identification and selection research. [ABSTRACT FROM AUTHOR]

Published

2023

18. REVIEW PAPER ON BRAIN TUMOR MRI DETECTION USING CNN.

Author

Saxena, Neeru, Chauhan, S. P. S., and Kumar, Sanjay

Subjects

DEEP learning, BRAIN tumors, CONVOLUTIONAL neural networks, MACHINE learning, MAGNETIC resonance imaging

Abstract

There has been an upsurge in the number of cases of brain tumors in both adults and children in recent years. A brain tumor can be treated if the diagnosis and treatment are given on time. Thus, researchers and scientists are working towards developing a technique and method for identifying the type, location and size and stage of tumor. Deep learning is a branch of machine learning (ML) which has been very successful in lots of sectors, especially in the medical field because it can handle a lot of data. MRI images may now be used to diagnose brain tumors with remarkably high accuracy in terms of tumor kind and size due to deep learning and convolutional neural networks. The major goal of this study is to give a complete assessment of existing research and findings in identifying and classifying brain tumor by means of MRI scans. The study's findings will help researchers compare previous studies to future ones, as well as give an idea of the usefulness of various deep learning (DL) and machine learning (ML) methods. [ABSTRACT FROM AUTHOR]

Published

2023

19. Topical collection on machine learning for big data analytics in smart healthcare systems.

Author

Jan, Mian Ahmad, Song, Houbing, Khan, Fazlullah, Rehman, Ateeq Ur, and Yang, Lie-Liang

Subjects

MACHINE learning, DEEP learning, ARTIFICIAL intelligence, BIG data, CONVOLUTIONAL neural networks, MEDICAL care

Published

2023

20. A Convolutional Neural Network for Ghost Image Recognition and Waveform Design of Electrophoretic Displays.

Author

Cao, Jin-Xin, Qin, Zong, Zeng, Zheng, Hu, Wen-Jie, Song, Lin-Yu, Hu, Dian-Lu, Wang, Xi-Du, Zeng, Xi, Chen, Yu, and Yang, Bo-Ru

Subjects

CONVOLUTIONAL neural networks, ELECTROPHORETIC displays, IMAGE recognition (Computer vision), SMART homes, ELECTRONIC paper

Abstract

With the advantages of low power consumption, flexibility, and high readability against bright ambiance, electrophoretic displays (EPDs) have wide application prospects in the fields of education, smart supermarkets, Internet of Things, smart homes, wearable devices, etc. EPDs suffer from a severe history dependence during grayscale switching, which results in annoying ghost images. However, currently, it is difficult to distinguish diverse types of ghost images automatically; thus, lookup-tables (LUTs) for multi-grayscale waveform design cannot be effectively generated but require cumbersome manual adjustment. In this article, we proposed to adopt a convolutional neural network (CNN) to automatically recognize ghost images, based on which, LUTs that could suppress ghost images and achieve accurate grayscales were automatically generated for waveform design. Moreover, the workforce for manual adjustment was significantly saved. The results suggest that the CNN is a powerful tool for EPDs to achieve better image quality, as well as less manual cost. [ABSTRACT FROM AUTHOR]

Published

2020

21. Special Issue on Data Analysis and Artificial Intelligence for IoT.

Author

Shrestha, Bhanu, Cho, Seongsoo, and Seo, Changho

Subjects

ARTIFICIAL intelligence, DEEP learning, INTRUSION detection systems (Computer security), MACHINE learning, INTERNET of things, CONVOLUTIONAL neural networks, DATA analysis

Abstract

This paper [[7]] addresses the challenges Intrusion Detection Systems (IDS) face in the Internet of Things (IoT) context due to IoT data's high dimensionality and diversity. The Internet of Things (IoT) has become an increasingly popular technology in recent years, enabling interconnectivity and communication between devices and systems. As a result, there is a growing need for advanced data analysis techniques and artificial intelligence (AI) methods to process, analyze, and extract valuable insights from IoT data. The proposed technique for tracking a moving object of interest in a noisy video using a modified simplest color balance algorithm and a binarization algorithm proved to be effective in building training data for machine learning. [Extracted from the article]

Published

2023

22. Machine learning based Breast Cancer screening: trends, challenges, and opportunities.

Author

Zizaan, Asma and Idri, Ali

Subjects

MACHINE learning, CONVOLUTIONAL neural networks, ARTIFICIAL neural networks, EARLY detection of cancer, BREAST cancer

Abstract

Although breast cancer (BC) deaths have decreased over time, it remains the second leading cause of cancer-related deaths among women. With the technical advancement of artificial intelligence (AI) and availability of healthcare data, many researchers have attempted to employ machine learning (ML) techniques to gain a better understanding of this disease. The present study was a systematic literature review (SLR) of the use of machine learning techniques in breast cancer screening (BCS) between 2011 and 2021. A total of 66 papers were selected and analysed to address nine criteria: year of publication, publication venue, paper type, BCS modality, empirical type, ML technique, performance, advantages and disadvantages, and dataset used. The results showed that mammography was the most frequently used BCS modality, and that classification was the most used ML objective. Moreover, of the six investigated ML techniques, convolutional neural network models scored the highest median accuracy with 96.67%, followed by adaptive boosting (88.9%). [ABSTRACT FROM AUTHOR]

Published

2023

23. Identification of Key Links in Electric Power Operation Based-Spatiotemporal Mixing Convolution Neural Network.

Author

Lei Feng, Bo Wang, Fuqi Ma, Hengrui Ma, and Mohamed, Mohamed A.

Subjects

POWER system simulation, MACHINE learning, CONVOLUTIONAL neural networks, ARTIFICIAL neural networks, SPATIOTEMPORAL processes

Abstract

As the scale of the power system continues to expand, the environment for power operations becomes more and more complex. Existing risk management and control methods for power operations can only set the same risk detection standard and conduct the risk detection for any scenario indiscriminately. Therefore, more reliable and accurate security control methods are urgently needed. In order to improve the accuracy and reliability of the operation risk management and control method, this paper proposes a method for identifying the key links in the whole process of electric power operation based on the spatiotemporal hybrid convolutional neural network. To provide early warning and control of targeted risks, first, the video stream is framed adaptively according to the pixel changes in the video stream. Then, the optimized MobileNet is used to extract the feature map of the video stream, which contains both time-series and static spatial scene information. The feature maps are combined and non-linearly mapped to realize the identification of dynamic operating scenes. Finally, training samples and test samples are produced by using the whole process image of a power company in Xinjiang as a case study, and the proposed algorithm is compared with the unimproved MobileNet. The experimental results demonstrated that the method proposed in this paper can accurately identify the type and start and end time of each operation link in the whole process of electric power operation, and has good real-time performance. The average accuracy of the algorithm can reach 87.8%, and the frame rate is 61 frames/s, which is of great significance for improving the reliability and accuracy of security control methods. [ABSTRACT FROM AUTHOR]

Published

2023

24. Special issue on deep learning and big data analytics for medical e-diagnosis/AI-based e-diagnosis.

Author

Fong, Simon, Fortino, Giancarlo, Ghista, Dhanjoo, and Piccialli, Francesco

Subjects

DEEP learning, ARTIFICIAL neural networks, MACHINE learning, ARTIFICIAL intelligence, BIG data, CONVOLUTIONAL neural networks

Abstract

The model integrates artificial intelligence (AI) and big data analytics, utilizing IoMT devices for data acquisition and Hadoop ecosystem for managing big data. The field of medical diagnosis is currently undergoing a remarkable transformation with the emergence of artificial intelligence (AI) techniques, particularly deep learning and big data analytics. By harnessing the power of deep learning and big data analytics, AI-based e-diagnosis has the potential to revolutionize healthcare delivery. [Extracted from the article]

Published

2023

25. Enhancing Oral Health Assessment through Convolutional Neural Networks based Detection.

Author

Patel, Zoya, Lawate, Kajal, Pandit, Mitray, Pabitwar, Sandesh, and Shaikh, N. F.

Subjects

DEEP learning, CONVOLUTIONAL neural networks, MACHINE learning, ORAL health, ORAL diseases

Abstract

Oral diseases are highly prevalent globally. Oral health also affects the general health of people. Therefore, the prevention and early treatment of oral diseases is important and beneficial. Diagnosis of oral health and diseases is conventionally done by clinical examination and, at times, by various investigations. Clinical examination is subjective and, hence, susceptible to error. One of the emerging trends of late is the use of machine learning and deep learning in healthcare. The current available systems tend to focus on a single image type and also consider fewer diseases at a time. To overcome these shortcomings, we developed a system, which is presented in this paper titled "Enhancing Oral Health Assessment through Convolutional Neural Networks Based Detection." By using various machine learning and deep learning algorithms, training multiple models, and integrating them, our proposed system can overcome these limitations. With the input given to the system in the form of an image, it would be able to detect any disease present, classify it, and give it as an output to the dentist. This paper explores the system’s background, the work done on various systems developed so far, the proposed system, and the techniques involved in making it. The expected results, the methods to verify the accuracy of the output, and the future scope are also discussed. The proposed system would be a significant contribution to the field of oral healthcare as it can assist dentists in diagnosing diseases and treating patients swiftly and efficiently. [ABSTRACT FROM AUTHOR]

Published

2024

26. Human Activity Recognition Using CNN and Lstm Deep Learning Algorithms.

Author

R. M., Vinaya and Mara, Geeta C.

Subjects

HUMAN activity recognition, MACHINE learning, DEEP learning, CONVOLUTIONAL neural networks, DATA mining

Abstract

Human Activity Recognition recognizes and classifies the activities performed by the users or people based on the data collected from the sensors of special devices such as smart-watches, smartphones etc. It has become easy to collect a huge amount of data from inertial sensors that are embedded in wearable devices. An accelerometer and gyroscope sensors are most commonly used inertial sensors. There are various already available datasets, in our paper, we are using the Wireless Sensor Data Mining dataset which contains 1,098,207 data of 6 physical activities performed. In this paper, the activities we aim to classify are walking, jogging, going up and downstairs, standing, and sitting. There are various algorithms applied on the various datasets. In our paper, we use Convolutional Neural Network and Long Short-Term Memory deep learning algorithm on the data set, we split the data into training data [80%] and testing data [20%]. By using a confusion matrix, we recognize and classify the activities performed using maximum accuracy. [ABSTRACT FROM AUTHOR]

Published

2023

27. Machine Learning Applications in Internet-of-Drones: Systematic Review, Recent Deployments, and Open Issues.

Author

HEIDARI, ARASH, NAVIMIPOUR, NIMA JAFARI, UNAL, MEHMET, and GUODAO ZHANG

Subjects

MACHINE learning, DEEP learning, CONVOLUTIONAL neural networks, PYTHON programming language, AGRICULTURE, SECURITY management

Abstract

Deep Learning (DL) and Machine Learning (ML) are effectively utilized in various complicated challenges in healthcare, industry, and academia. The Internet of Drones (IoD) has lately cropped up due to high adjustability to a broad range of unpredictable circumstances. In addition, Unmanned Aerial Vehicles (UAVs) could be utilized efficiently in a multitude of scenarios, including rescue missions and search, farming, mission-critical services, surveillance systems, and so on, owing to technical and realistic benefits such as low movement, the capacity to lengthen wireless coverage zones, and the ability to attain places unreachable to human beings. In many studies, IoD and UAV are utilized interchangeably. Besides, drones enhance the efficiency aspects of various network topologies, including delay, throughput, interconnectivity, and dependability. Nonetheless, the deployment of drone systems raises various challenges relating to the inherent unpredictability of the wireless medium, the high mobility degrees, and the battery life that could result in rapid topological changes. In this paper, the IoD is originally explained in terms of potential applications and comparative operational scenarios. Then, we classify ML in the IoD-UAV world according to its applications, including resource management, surveillance and monitoring, object detection, power control, energy management, mobility management, and security management. This research aims to supply the readers with a better understanding of (1) the fundamentals of IoD/UAV, (2) the most recent developments and breakthroughs in this field, (3) the benefits and drawbacks of existing methods, and (4) areas that need further investigation and consideration. The resultssuggest that the Convolutional Neural Networks (CNN) method is the most often employed ML method in publications. According to research, most papers are on resource and mobility management. Most articles have focused on enhancing only one parameter, with the accuracy parameter receiving the most attention. Also, Python is the most commonly used language in papers, accounting for 90% of the time. Also, in 2021, it has the most papers published. [ABSTRACT FROM AUTHOR]

Published

2023

28. Machine learning applied to epilepsy: bibliometric and visual analysis from 2004 to 2023.

Author

Qing Huo, Xu Luo, Zu-Cai Xu, and Xiao-Yan Yang

Subjects

EPILEPSY, BIBLIOMETRICS, MACHINE learning, CONVOLUTIONAL neural networks, CHINA-United States relations, DATABASES

Abstract

Background: Epilepsy is one of the most common serious chronic neurological disorders, which can have a serious negative impact on individuals, families and society, and even death. With the increasing application of machine learning techniques in medicine in recent years, the integration of machine learning with epilepsy has received close attention, and machine learning has the potential to provide reliable and optimal performance for clinical diagnosis, prediction, and precision medicine in epilepsy through the use of various types of mathematical algorithms, and promises to make better parallel advances. However, no bibliometric assessment has been conducted to evaluate the scientific progress in this area. Therefore, this study aims to visually analyze the trend of the current state of research related to the application of machine learning in epilepsy through bibliometrics and visualization. Methods: Relevant articles and reviews were searched for 2004-2023 using Web of Science Core Collection database, and bibliometric analyses and visualizations were performed in VOSviewer, CiteSpace, and Bibliometrix (R-Tool of R-Studio). Results: A total of 1,284 papers related to machine learning in epilepsy were retrieved from the Wo SCC database. The number of papers shows an increasing trend year by year. These papers were mainly from 1,957 organizations in 87 countries/regions, with the majority from the United States and China. The journal with the highest number of published papers is EPILEPSIA. Acharya, U. Rajendra (Ngee Ann Polytechnic, Singapore) is the authoritative author in the field and his paper "Deep Convolutional Neural Networks for Automated Detection and Diagnosis of Epileptic Seizures Using EEG Signals" was the most cited. Literature and keyword analysis shows that seizure prediction, epilepsy management and epilepsy neuroimaging are current research hotspots and developments. Conclusions: This study is the first to use bibliometric methods to visualize and analyze research in areas related to the application of machine learning in epilepsy, revealing research trends and frontiers in the field. This information will provide a useful reference for epilepsy researchers focusing on machine learning. [ABSTRACT FROM AUTHOR]

Published

2024

29. Forecasting Agriculture Commodity Futures Prices with Convolutional Neural Networks with Application to Wheat Futures.

Author

Thaker, Avi, Chan, Leo H., and Sonner, Daniel

Subjects

COMMODITY futures, PRICES, MACHINE learning, AGRICULTURAL forecasts, CONVOLUTIONAL neural networks, COMMODITY exchanges

Abstract

In this paper, we utilize a machine learning model (the convolutional neural network) to analyze aerial images of winter hard red wheat planted areas and cloud coverage over the planted areas as a proxy for future yield forecasts. We trained our model to forecast the futures price 20 days ahead and provide recommendations for either a long or short position on wheat futures. Our method shows that achieving positive alpha within a short time window is possible if the algorithm and data choice are unique. However, the model's performance can deteriorate quickly if the input data become more easily available and/or the trading strategy becomes crowded, as was the case with the aerial imagery we utilized in this paper. [ABSTRACT FROM AUTHOR]

Published

2024

30. DETECTION OF DEEP FAKES USING DEEP LEARNING.

Author

D., ANJANI SUPUTRI DEVI, T., SAI KISHORE, V., VENKATA SRI SAI TEJASWI, G., VENKATA SUBRAHMANYA SIVARAM, K., SUBHAN SAHEB S., and K., VIKAS KUMAR

Subjects

DEEP learning, MACHINE learning, CONVOLUTIONAL neural networks, ARTIFICIAL intelligence, RECURRENT neural networks, FEATURE extraction

Abstract

Deep learning algorithms have simplified the process of creating indistinguishable synthetic videos, or deep fakes, because of the unparalleled increase in processing power. It is concerning because these face-swapped manipulations are often used in a variety of contexts, such as blackmail and political manipulation. This paper presents a revolutionary deep learning-based approach to accurately discriminating between real and Artificial Intelligence (AI)-generated false films. Using a ResNext Convolutional Neural Network (CNN) for frame-level feature extraction, this method makes use of an automated mechanism intended to identify replacement and re-enactment deep fakes. A Recurrent Neural Network (RNN) equipped with Long Short-Term Memory (LSTM) training is utilized to classify videos and distinguish between real and modified ones. The system demonstrates the effectiveness of a straightforward and reliable methodology, in addition to utilizing complex neural network topologies. Through testing, this paper showcases how well the system can accurately identify videos playing a crucial role in ongoing initiatives to combat the increasing dangers posed by the proliferation of deep fake content in society. [ABSTRACT FROM AUTHOR]

Published

2024

31. Machine Learning in X-ray Diagnosis for Oral Health: A Review of Recent Progress.

Author

Martins, Mónica Vieira, Baptista, Luís, Luís, Henrique, Assunção, Victor, Araújo, Mário-Rui, and Realinho, Valentim

Subjects

RADIOSCOPIC diagnosis, MACHINE learning, CONE beam computed tomography, X-ray imaging, ARTIFICIAL intelligence

Abstract

The past few decades have witnessed remarkable progress in the application of artificial intelligence (AI) and machine learning (ML) in medicine, notably in medical imaging. The application of ML to dental and oral imaging has also been developed, powered by the availability of clinical dental images. The present work aims to investigate recent progress concerning the application of ML in the diagnosis of oral diseases using oral X-ray imaging, namely the quality and outcome of such methods. The specific research question was developed using the PICOT methodology. The review was conducted in the Web of Science, Science Direct, and IEEE Xplore databases, for articles reporting the use of ML and AI for diagnostic purposes in X-ray-based oral imaging. Imaging types included panoramic, periapical, bitewing X-ray images, and oral cone beam computed tomography (CBCT). The search was limited to papers published in the English language from 2018 to 2022. The initial search included 104 papers that were assessed for eligibility. Of these, 22 were included for a final appraisal. The full text of the articles was carefully analyzed and the relevant data such as the clinical application, the ML models, the metrics used to assess their performance, and the characteristics of the datasets, were registered for further analysis. The paper discusses the opportunities, challenges, and limitations found. [ABSTRACT FROM AUTHOR]

Published

2023

32. Stability Analysis of Breakwater Armor Blocks Based on Deep Learning.

Author

Zhu, Pengrui, Bai, Xin, Liu, Hongbiao, and Zhao, Yibo

Subjects

DEEP learning, LANGUAGE models, CONVOLUTIONAL neural networks, MACHINE learning, BREAKWATERS

Abstract

This paper aims to use deep learning algorithms to identify and study the stability of breakwater armor blocks. It introduces a posture identification model for fender blocks using a Mask Region-based Convolutional Neural Network (R-CNN), which has been enhanced by considering factors affecting breakwater fender blocks. Furthermore, a wave prediction model for breakwaters is developed by integrating Bidirectional Encoder Representations from Transformers (BERTs) with Bidirectional Long Short-Term Memory (BiLSTM). The performance of these models is evaluated. The results show that the accuracy of the Mask R-CNN and its comparison algorithms initially increases and then decreases with higher Intersection Over Union (IOU) thresholds, peaking at 95.16% accuracy at an IOU threshold of 0.5. The BERT-BiLSTM wave prediction model maintains a loss value around 0.01 and an accuracy of approximately 90.00%. These results suggest that the proposed models offer more accurate stability assessments of breakwater armor blocks. By combining the random forest prediction model with BiLSTM, the wave characteristics and fender posture can be predicted better, offering reliable decision support for breakwater engineering. [ABSTRACT FROM AUTHOR]

Published

2024

33. Enhancing Thai Food Classification: A CNN-Based Approach with Transfer Learning.

Author

Matarat, Korakot

Subjects

THAI cooking, CONVOLUTIONAL neural networks, IMAGE recognition (Computer vision), CLASSIFICATION, DEEP learning

Abstract

In this research paper, we delve into the classification of Thai cuisine images. Despite Thailand's renowned reputation for its multicultural culinary landscape, there is a noticeable gap in dedicated studies on Thai food classification. This paper seeks to fill that void by applying deep learning methodologies, specifically Convolutional Neural Networks (CNNs), to the identification of Thai cuisine. Thai cuisine, shaped by regional and intra-regional variations, serves as a powerful cultural representation for the nation. The study employs image recognition through CNN and integrates transfer learning to enhance classification performance. The collaborative learning process between CNN and transfer learning contributes to achieving a noteworthy accuracy rate of 84%. While previous research has often overlooked the specificity of Thai cuisine, our aim is to shed light on the potential of deep classification networks, offering an engaging illustration for both researchers and food enthusiasts alike contributing to the broader field of food image classification. [ABSTRACT FROM AUTHOR]

Published

2024

34. Vehicle Occupant Detection Based on MM-Wave Radar.

Author

Li, Wei, Wang, Wenxu, and Wang, Hongzhi

Subjects

TRACKING radar, INTELLIGENT transportation systems, RADAR signal processing, MACHINE learning, RADAR, DEEP learning, SYSTEMS design

Abstract

With the continuous development of automotive intelligence, vehicle occupant detection technology has received increasing attention. Despite various types of research in this field, a simple, reliable, and highly private detection method is lacking. This paper proposes a method for vehicle occupant detection using millimeter-wave radar. Specifically, the paper outlines the system design for vehicle occupant detection using millimeter-wave radar. By collecting the raw signals of FMCW radar and applying Range-FFT and DoA estimation algorithms, a range–azimuth heatmap was generated, visually depicting the current status of people inside the vehicle. Furthermore, utilizing the collected range–azimuth heatmap of passengers, this paper integrates the Faster R-CNN deep learning networks with radar signal processing to identify passenger information. Finally, to test the performance of the detection method proposed in this article, an experimental verification was conducted in a car and the results were compared with those of traditional machine learning algorithms. The findings indicated that the method employed in this experiment achieves higher accuracy, reaching approximately 99%. [ABSTRACT FROM AUTHOR]

Published

2024

35. LoRa Radio Frequency Fingerprinting with Residual of Variational Mode Decomposition and Hybrid Machine-Learning/Deep-Learning Optimization.

Author

Baldini, Gianmarco and Bonavitacola, Fausto

Subjects

RADIO frequency, ELECTRONIC equipment, CONVOLUTIONAL neural networks, DEEP learning, HILBERT-Huang transform, MACHINE theory, HUMAN fingerprints

Abstract

Radio Frequency Fingerprinting (RFF) refers to the technique for identifying and classifying wireless devices on the basis of their physical characteristics, which appear in the digital signal transmitted in space. Small differences in the radio frequency front-end of the wireless devices are generated across the same wireless device model during the implementation and manufacturing process. These differences create small variations in the transmitted signal, even if the wireless device is still compliant with the wireless standard. By using data analysis and machine-learning algorithms, it is possible to classify different electronic devices on the basis of these variations. This technique has been well proven in the literature, but research is continuing to improve the classification performance, robustness to noise, and computing efficiency. Recently, Deep Learning (DL) has been applied to RFF with considerable success. In particular, the combination of time-frequency representations and Convolutional Neural Networks (CNN) has been particularly effective, but this comes at a great computational cost because of the size of the time-frequency representation and the computing time of CNN. This problem is particularly challenging for wireless standards, where the data to be analyzed is extensive (e.g., long preambles) as in the case of the LoRa (Long Range) wireless standard. This paper proposes a novel approach where two pre-processing steps are adopted to (1) improve the classification performance and (2) to decrease the computing time. The steps are based on the application of Variational Mode Decomposition (VMD) where (in opposition to the known literature) the residual of the VMD application is used instead of the extracted modes. The concept is to remove the modes, which are common among the LoRa devices, and keep with the residuals the unique intrinsic features, which are related to the fingerprints. Then, the spectrogram is applied to the residual component. Even after this step, the computing complexity of applying CNN to the spectrogram is high. This paper proposes a novel step where only segments of the spectrogram are used as input to CNN. The segments are selected using a machine-learning approach applied to the features extracted from the spectrogram using the Local Binary Pattern (LBP). The approach is applied to a recent LoRa radio frequency fingerprinting public data set, where it is shown to significantly outperform the baseline approach based on the full use of the spectrogram of the original signal in terms of both classification performance and computing complexity. [ABSTRACT FROM AUTHOR]

Published

2024

36. Editorial for the Special Issue "Machine Learning in Computer Vision and Image Sensing: Theory and Applications".

Author

Chakraborty, Subrata and Pradhan, Biswajeet

Subjects

COMPUTER vision, MACHINE learning, ARTIFICIAL neural networks, DEEP learning, CONVOLUTIONAL neural networks, SIGNAL processing, GAIT in humans

Abstract

This document is an editorial for a special issue titled "Machine Learning in Computer Vision and Image Sensing: Theory and Applications." The editorial highlights the diverse applications of machine learning (ML) models in various domains such as medical imaging, signal processing, remote sensing, and human activity detection. The special issue includes 11 papers that cover topics such as image segmentation, fluvial navigation, Alzheimer's disease classification, pneumothorax detection, lung cancer malignancy prediction, amniotic fluid volume detection, COVID-19 detection, and Parkinson's disease detection. The papers showcase the progress and potential of ML models in computer vision applications and provide valuable insights for future research. [Extracted from the article]

Published

2024

37. AI-based digital image dietary assessment methods compared to humans and ground truth: a systematic review.

Author

Shonkoff, Eleanor, Cara, Kelly Copeland, Pei, Xuechen, Chung, Mei, Kamath, Shreyas, Panetta, Karen, and Hennessy, Erin

Subjects

ARTIFICIAL intelligence, CONVOLUTIONAL neural networks, DIGITAL images, IMAGE databases, DIET therapy

Abstract

Human error estimating food intake is a major source of bias in nutrition research. Artificial intelligence (AI) methods may reduce bias, but the overall accuracy of AI estimates is unknown. This study was a systematic review of peer-reviewed journal articles comparing fully automated AI-based (e.g. deep learning) methods of dietary assessment from digital images to human assessors and ground truth (e.g. doubly labelled water). Literature was searched through May 2023 in four electronic databases plus reference mining. Eligible articles reported AI estimated volume, energy, or nutrients. Independent investigators screened articles and extracted data. Potential sources of bias were documented in absence of an applicable risk of bias assessment tool. Database and hand searches identified 14,059 unique publications; fifty-two papers (studies) published from 2010 to 2023 were retained. For food detection and classification, 79% of papers used a convolutional neural network. Common ground truth sources were calculation using nutrient tables (51%) and weighed food (27%). Included papers varied widely in food image databases and results reported, so meta-analytic synthesis could not be conducted. Relative errors were extracted or calculated from 69% of papers. Average overall relative errors (AI vs. ground truth) ranged from 0.10% to 38.3% for calories and 0.09% to 33% for volume, suggesting similar performance. Ranges of relative error were lower when images had single/simple foods. Relative errors for volume and calorie estimations suggest that AI methods align with – and have the potential to exceed – accuracy of human estimations. However, variability in food image databases and results reported prevented meta-analytic synthesis. The field can advance by testing AI architectures on a limited number of large-scale food image and nutrition databases that the field determines to be adequate for training and testing and by reporting accuracy of at least absolute and relative error for volume or calorie estimations. These results suggest that AI methods are in line with – and have the potential to exceed – accuracy of human estimations of nutrient content based on digital food images. Variability in food image databases used and results reported prevented meta-analytic synthesis. The field can advance by testing AI architectures on a limited number of large-scale food image and nutrition databases that the field determines to be accurate and by reporting accuracy of at least absolute and relative error for volume or calorie estimations. Overall, the tools currently available need more development before deployment as stand-alone dietary assessment methods in nutrition research or clinical practice. [ABSTRACT FROM AUTHOR]

Published

2023

38. Classification and Precision Diagnosis of Endometrial Cancer - Survey.

Author

Kodagali, Sachin and Prasad, Venkatesh

Subjects

ENDOMETRIAL cancer, CONVOLUTIONAL neural networks, CANCER diagnosis, DEEP learning, PICTURE archiving & communication systems, MACHINE learning, BENIGN tumors

Abstract

Diagnosis of Cancer type is as important as the right classification of benign and malignant tumor cells. It is also very critical to achieve precision diagnosis to help doctor's find better clinical outcomes. Endometrial type of a cancer that starts in the uterus and found at an early stage as it frequently produces abnormal vaginal bleeding and hence it becomes critical to not only classify the tumor but also to detect the type and grade of the cancer. In the United States of America, endometrial cancer is a top five leading cancer with fifty-two thousand unique cases reported in the year 2014. This number raised to around sixty thousand in the year of 2016 and these numbers are further estimated to increase to around sixty-two thousand in 2019. The dataset used is composed of radiology and pathology images from Corpus Endometrial Carcinoma (CPTAC) Patients. This paper uses the Machine learning approaches that will classify the cell as malignant or benign. Deep learning approaches are used to provide Precision diagnosis that provides better outcomes to the clinicians. Convolutional Neural Network algorithms have been successfully used in diagnosis of Brain tumor, Skin Cancer and similar approaches can be used to tackle this problem. [ABSTRACT FROM AUTHOR]

Published

2023

39. Comparative Analysis of Machine Learning and Deep Learning Based Water Pipeline Leak Detection Using EDFL Sensor.

Author

Rajasekaran, Uma and Kothandaraman, Mohanaprasad

Subjects

WATER pipelines, DEEP learning, MACHINE learning, CONVOLUTIONAL neural networks, WATER leakage, LEAK detection, BOOSTING algorithms

Abstract

A pipeline is the most efficient way to transport water from one place to another. Due to aging, corrosion, and external factors, the pipeline is prone to damage, which causes leaks. Many machine learning (ML) and deep learning (DL) methods are available to address this issue. This paper does an experimental study on available methods in ML and DL for leak detection for the collected data using an acousto-optic sensor. The experimental setup comprises of an acousto-optic sensor made of an erbium-doped fiber laser (EDFL), galvanized iron pipeline, a tank, a pump, and a data acquisition unit. The dimensions of the galvanized pipeline looped with the water tank are a length of 40 m, an inner diameter of 89 mm, and an outer diameter of 90 mm. The diameter of the simulated leak aperture is 5 mm. The methods analyzed in this study are k-means, k-medoids, Naive Bayes (NB), support vector machines (SVM), k-nearest neighbor (KNN), decision tree (DT), categorical boosting (CatBoost), random forest (RF), XGBoost, AdaBoost, and one-dimensional convolutional neural network (1DCNN). ML algorithms need a feature extraction technique because the data collected from the experiment is too large and contains redundant information. Feature extraction reduces the data size by extracting essential information. This paper extracts ten features from raw data. Among the ML algorithms, AdaBoost gives the highest prediction accuracy of 98.02%. This paper also implements eight models of 1DCNN, and Model 1 shows the best prediction accuracy of 98.16%, which is the highest compared with all the other classifiers in ML and DL for one-dimensional time series acousto-optic sensor data. [ABSTRACT FROM AUTHOR]

Published

2023

40. POSS-CNN: An Automatically Generated Convolutional Neural Network with Precision and Operation Separable Structure Aiming at Target Recognition and Detection.

Author

Hou, Jia, Zhang, Jingyu, Chen, Qi, Xiang, Siwei, Meng, Yishuo, Wang, Jianfei, Lu, Cimang, and Yang, Chen

Subjects

CONVOLUTIONAL neural networks, REINFORCEMENT learning, MACHINE learning, RECOGNITION (Psychology), ARTIFICIAL intelligence, EVOLUTIONARY algorithms, ENERGY consumption

Abstract

Artificial intelligence is changing and influencing our world. As one of the main algorithms in the field of artificial intelligence, convolutional neural networks (CNNs) have developed rapidly in recent years. Especially after the emergence of NASNet, CNNs have gradually pushed the idea of AutoML to the public's attention, and large numbers of new structures designed by automatic searches are appearing. These networks are usually based on reinforcement learning and evolutionary learning algorithms. However, sometimes, the blocks of these networks are complex, and there is no small model for simpler tasks. Therefore, this paper proposes POSS-CNN aiming at target recognition and detection, which employs a multi-branch CNN structure with PSNC and a method of automatic parallel selection for super parameters based on a multi-branch CNN structure. Moreover, POSS-CNN can be broken up. By choosing a single branch or the combination of two branches as the "benchmark", as well as the overall POSS-CNN, we can achieve seven models with different precision and operations. The test accuracy of POSS-CNN for a recognition task tested on a CIFAR10 dataset can reach 86.4%, which is equivalent to AlexNet and VggNet, but the operation and parameters of the whole model in this paper are 45.9% and 45.8% of AlexNet, and 29.5% and 29.4% of VggNet. The mAP of POSS-CNN for a detection task tested on the LSVH dataset is 45.8, inferior to the 62.3 of YOLOv3. However, compared with YOLOv3, the operation and parameters of the model in this paper are reduced by 57.4% and 15.6%, respectively. After being accelerated by WRA, POSS-CNN for a detection task tested on an LSVH dataset can achieve 27 fps, and the energy efficiency is 0.42 J/f, which is 5 times and 96.6 times better than GPU 2080Ti in performance and energy efficiency, respectively. [ABSTRACT FROM AUTHOR]

Published

2023

41. Guest Editorial — Introduction to the Special Issue on Smart Fuzzy Optimization for Decision-Making in Uncertain Environments.

Author

Joo, Er Meng, Pelusi, Danilo, and Wen, Shiping

Subjects

SWARM intelligence, INFORMATION technology, CONVOLUTIONAL neural networks, MACHINE learning, OPTIMIZATION algorithms, DEEP learning, METAHEURISTIC algorithms

Abstract

For managing data redundancy, the proposed Intelligent Data Fusion Technique (IDFT) decreases the quantity of transmitting data, broadens the network life cycle, enhances bandwidth utilization, and therefore resolves the energy and bandwidth usage bottleneck. Over the last five decades, fuzzy optimization has found numerous successful applications in diverse fields including operations research, manufacturing, information technology, energy optimization, data science and smart cities, big data analytics, etc. Fuzzy optimization is one kind of approximation of nonlinear optimization techniques, which has formed some systematic but not unified theories of fuzzy systems and other fuzzy-set-based methodologies. [Extracted from the article]

Published

2023

42. AN EFFICIENT ENGLISH TEACHING DRIVEN BY ENTERPRISE-SOCIAL MEDIA BIG DATA: A NEURAL NETWORK-BASED SOLUTION.

Author

TIAN, XUE, ALASSAFI, MADINI O., and ALSAADI, FAWAZ E.

Subjects

DEEP learning, CONVOLUTIONAL neural networks, MACHINE learning, ENGLISH language, BIG data, SOCIAL media

Abstract

The cultivation of creativity is closely related to language learning. How to design the creativity promotion mechanism of English teaching in the public environment is the challenge faced by English teachers. With the advent of the era of big data, English teachers can apply the latest research results to classroom teaching. For example, the rational use of social media helps students to learn and communicate in the language, cultivate students' creativity in learning English, and improves the quality of teaching. Corporate social media has become the most important way for corporate employees to record their lives, express opinions, share and communicate, and it is also one of the reliable and real-time sources of big data that reflects the true state of English learners. Real, accurate, and timely enterprise social media big data samples contain an enormous educational value, providing more possibilities for educational research. From the perspective of value, through sentiment analysis, topic mining, social network analysis, etc. on social media big data, learner portraits can be realized, thereby providing decision-making reference and support for stakeholders. This paper first builds a learning interest classification model based on TCNN-GRU deep learning, collects experimental data sets from an online English learner's social media platform and performs learning interest classification and labeling, and then uses the TCNN-GRU model to determine the user's learning interest tendency. On this basis, the concept of learning interest index is further proposed, and a neural network-based corporate social platform English learner portrait model is established. The experimental results show that, compared with the traditional machine learning model, convolutional neural network model, and recurrent neural network model, the TCNN-GRU model can obtain better results in learning interest classification. [ABSTRACT FROM AUTHOR]

Published

2023

43. Special Issue: Machine Learning and Data Analysis.

Author

Michalak, Marcin

Subjects

DEEP learning, CONVOLUTIONAL neural networks, PATTERN recognition systems, DATA analysis, ARTIFICIAL neural networks, CREDIT card fraud, MACHINE learning

Abstract

This Special Issue contains 2 reviews and 17 research papers related to the following topics: Time series forecasting [[1], [3], [5]]; Image analysis [[6]]; Medical applications [[7]]; Knowledge graph analysis [[9]]; Cybersecurity [[11], [13]]; Traffic analysis [[14]]; Agriculture [[16]]; Environmental data analysis [[17]]. In [[2]], a time series analysis was applied in a different manner: their prediction of the high stock dividend (HSD) was based on a sequence of typical machine learning approaches instead of state-of-the-art methods such as ARIMA or SMA. The authors of [[1]] focused on short time series forecasting in the domain of crime data (thefts, shoplifting, vehicular crimes, and burglaries in Mexico). In this paper, the authors attempt to answer the questions what is air traffic complexity and which air traffic data variables have greater impacts on increases in complexity?. [Extracted from the article]

Published

2023

44. Performance Improvement of Speech Emotion Recognition Systems by Combining 1D CNN and LSTM with Data Augmentation.

Author

Pan, Shing-Tai and Wu, Han-Jui

Subjects

AUTOMATIC speech recognition, DATA augmentation, ARTIFICIAL neural networks, MACHINE learning, EMOTION recognition, CONVOLUTIONAL neural networks

Abstract

In recent years, the increasing popularity of smart mobile devices has made the interaction between devices and users, particularly through voice interaction, more crucial. By enabling smart devices to better understand users' emotional states through voice data, it becomes possible to provide more personalized services. This paper proposes a novel machine learning model for speech emotion recognition called CLDNN, which combines convolutional neural networks (CNN), long short-term memory neural networks (LSTM), and deep neural networks (DNN). To design a system that closely resembles the human auditory system in recognizing audio signals, this article uses the Mel-frequency cepstral coefficients (MFCCs) of audio data as the input of the machine learning model. First, the MFCCs of the voice signal are extracted as the input of the model. Local feature learning blocks (LFLBs) composed of one-dimensional CNNs are employed to calculate the feature values of the data. As audio signals are time-series data, the resulting feature values from LFLBs are then fed into the LSTM layer to enhance learning on the time-series level. Finally, fully connected layers are used for classification and prediction. The experimental evaluation of the proposed model utilizes three databases: RAVDESS, EMO-DB, and IEMOCAP. The results demonstrate that the LSTM model effectively models the features extracted from the 1D CNN due to the time-series characteristics of speech signals. Additionally, the data augmentation method applied in this paper proves beneficial in improving the recognition accuracy and stability of the systems for different databases. Furthermore, according to the experimental results, the proposed system achieves superior recognition rates compared to related research in speech emotion recognition. [ABSTRACT FROM AUTHOR]

Published

2023

45. DEEP LEARNING-BASED IRAQI BANKNOTES CLASSIFICATION SYSTEM FOR BLIND PEOPLE.

Author

Awad, Sohaib Rajab, Sharef, Baraa T., Salih, Abdulkreem M., and Malallah, Fahad Layth

Subjects

COMPUTER vision, CONVOLUTIONAL neural networks, PEOPLE with visual disabilities, MACHINE learning, DEEP learning, HUMAN-computer interaction

Abstract

Modern systems have been focusing on improving the quality of life for people. Hence, new technologies and systems are currently utilized extensively in different sectors of our societies, such as education and medicine. One of the medical applications is using computer vision technology to help blind people in their daily endeavors and reduce their frequent dependence on their close people and also create a state of independence for visually impaired people in conducting daily financial operations. Motivated by this fact, the work concentrates on assisting the visually impaired to distinguish among Iraqi banknotes. In essence, we employ computer vision in conjunction with Deep Learning algorithms to build a multiclass classification model for classifying the banknotes. This system will produce specific vocal commands that are equivalent to the categorized banknote image, and then inform the visually impaired people of the denomination of each banknote. To classify the Iraqi banknotes, it is important to know that they have two sides: the Arabic side and the English side, which is considered one of the important issues for human-computer interaction (HCI) in constructing the classification model. In this paper, we use a database, which comprises 3,961 image samples of the seven Iraqi paper currency categories. Furthermore, a nineteen layers Convolutional Neural Network (CNN) is trained using this database in order to distinguish among the denominations of the banknotes. Finally, the developed system has exhibited an accuracy of 98.6 %, which proves the feasibility of the proposed model. [ABSTRACT FROM AUTHOR]

Published

2022

46. IoT workload offloading efficient intelligent transport system in federated ACNN integrated cooperated edge-cloud networks.

Author

Lakhan, Abdullah, Grønli, Tor-Morten, Bellavista, Paolo, Memon, Sajida, Alharby, Maher, and Thinnukool, Orawit

Subjects

CONVOLUTIONAL neural networks, FEDERATED learning, INTERNET of things, INTELLIGENT transportation systems, MACHINE learning, DEEP learning, MULTICASTING (Computer networks)

Abstract

Intelligent transport systems (ITS) provide various cooperative edge cloud services for roadside vehicular applications. These applications offer additional diversity, including ticket validation across transport modes and vehicle and object detection to prevent road collisions. Offloading among cooperative edge and cloud networks plays a key role when these resources constrain devices (e.g., vehicles and mobile) to offload their workloads for execution. ITS used different machine learning and deep learning methods for decision automation. However, the self-autonomous decision-making processes of these techniques require significantly more time and higher accuracy for the aforementioned applications on the road-unit side. Thus, this paper presents the new offloading ITS for IoT vehicles in cooperative edge cloud networks. We present the augmented convolutional neural network (ACNN) that trains the workloads on different edge nodes. The ACNN allows users and machine learning methods to work together, making decisions for offloading and scheduling workload execution. This paper presents an augmented federated learning scheduling scheme (AFLSS). An algorithmic method called AFLSS comprises different sub-schemes that work together in the ITS paradigm for IoT applications in transportation. These sub-schemes include ACNN, offloading, scheduling, and security. Simulation results demonstrate that, in terms of accuracy and total time for the considered problem, the AFLSS outperforms all existing methods. [ABSTRACT FROM AUTHOR]

Published

2024

47. Development of a Wafer Defect Pattern Classifier Using Polar Coordinate System Transformed Inputs and Convolutional Neural Networks.

Author

Kim, Moo Hyun and Kim, Tae Seon

Subjects

DEEP learning, CONVOLUTIONAL neural networks, FEATURE extraction, CARTESIAN coordinates, MACHINE learning

Abstract

Defect pattern analysis of wafer bin maps (WBMs) is an important means of identifying process problems. Recently, automated analysis methods using machine learning or deep learning have been studied as alternatives to manual classification by engineers. In this paper, we propose a method to improve the feature extraction performance of defect patterns by transforming the polar coordinate system instead of the existing WBM image input. To reduce the variability of the location representation, defect patterns in the Cartesian coordinate system, where the location of the distributed defect die is not constant, were converted to a polar coordinate system. The CNN classifier, which uses polar coordinate transformed input, achieved a classification accuracy of 91.3%, which is 4.8% better than the existing WBM image-based CNN classifier. Additionally, a tree-structured classifier model that sequentially connects binary classifiers achieved a classification accuracy of 94%. The method proposed in this paper is also applicable to the defect pattern classification of WBMs consisting of different die sizes than the training data. Finally, the paper proposes an automated pattern classification method that uses individual classifiers to learn defect types and then applies ensemble techniques for multiple defect pattern classification. This method is expected to reduce labor, time, and cost and enable objective labeling instead of relying on subjective judgments of engineers. [ABSTRACT FROM AUTHOR]

Published

2024

48. Assessment of Mental Workload Level Based on PPG Signal Fusion Continuous Wavelet Transform and Cardiopulmonary Coupling Technology.

Author

Zhang, Han, Wang, Ziyi, Zhuang, Yan, Yin, Shimin, Chen, Zhencheng, and Liang, Yongbo

Subjects

WAVELET transforms, CONVOLUTIONAL neural networks, HEART beat, MENTAL depression, SIGNAL processing, MACHINE learning

Abstract

Mental workload is an important predisposing factor for mental illnesses such as depression and is closely related to individual mental health. However, the suboptimal accuracy of utilizing photoplethysmography (PPG) exclusively for mental workload classification has constrained its application within pertinent professional domains. To this end, this paper proposes a signal processing method that combines continuous wavelet transform (CWT) and cardiopulmonary coupling mapping (CPC) to classify mental load via a convolutional neural network (ResAttNet). The method reflects changes in mental workload, as assessed by changes in the association between heart rate variability and respiration. In this paper, the strengths and weaknesses of this method are compared with other traditional psychological workload monitoring methods, such as heart rate variability (HRV), and its validation is performed on the publicly available dataset MAUS. The experiments show that the method is significantly better than previous machine learning methods based on heart rate variability correlation. Meanwhile, the accuracy of the method proposed in this paper reaches 80.5%, which is 6.2% higher than in previous studies. It is comparable to the result of 82.4% for the ECG-based mental workload monitoring system. Therefore, the method of combining CWT and CPC has considerable potential and provides new ideas for mental workload classification. [ABSTRACT FROM AUTHOR]

Published

2024

49. An ensemble deep learning model for automatic classification of cotton leaves diseases.

Author

Kukadiya, Hirenkumar, Arora, Nidhi, Meva, Divyakant, and Srivastava, Shilpa

Subjects

DEEP learning, CONVOLUTIONAL neural networks, COTTON, AUTOMATIC classification, PLANT diseases, RATE setting

Abstract

Cotton plant (Gossypium herbaceum), is one of the significant fiber crop grown worldwide. However, the crop is quite prone to leaves diseases, for which deep learning (DL) techniques can be utilized for early disease prediction and prevent stakeholders from losing the harvest. The objective of this paper is to develop a novel ensemble based deep convolutional neural network (DCNN) model developed on two base pretrained models named: VGG16 and InceptionV3 for early detection of cotton leaves diseases. The proposed ensemble model trained on cotton leaves dataset reports higher training and testing prediction accuracies as compared to the base pretrained models. Given that, deep learning architectures have hyper-parameters, this paper presents exhaustive experimental evaluations on ensemble model to tune hyper-parameters named learning rate, optimizer and no of epochs. The suggested hyper-parameter settings can be directly utilized while employing the ensemble model for cotton plant leaves disease detection and prediction. With suggested hyper-parameters settings of learning rate 0.0001, 20 epochs and stochastic gradient descent (SGD) optimizer, ensemble model reported training and testing accuracies of 98% and 95% respectively, which was higher than the training and testing accuracies of VGG16 and InceptionV3 pretrained DCNN models. [ABSTRACT FROM AUTHOR]

Published

2024

50. Special Issue on Decision Making in Heterogeneous Network Data Scenarios and Applications.

Author

Li, Jianxin, Liu, Chengfei, Guan, Ziyu, and Wu, Yinghui

Subjects

DEEP learning, DECISION making, REINFORCEMENT learning, CONVOLUTIONAL neural networks, MACHINE learning, CAPSULE neural networks

Abstract

Decision making is the process of making choices by identifying a decision, gathering information, and assessing alternative resolutions. Therefore, in this paper, they proposed an attention-based hierarchical denoised deep clustering (AHDDC) algorithm to solve the problem, which enables GCN to learn multiple layers of hidden information and uses the attention mechanism to strengthen the information. These accepted articles make contributions and novel aspects of different research in social media data scenarios, traffic data scenarios, data security scenarios, medical data scenarios, knowledge graph learning, and the other graph based deep learning models. [Extracted from the article]

Published

2023