Showing total 5 results

1. Diagnosis of COVID-19 from X-ray images using deep learning techniques.

Author

Meshref Alghamdi, Maha Mesfer and Hassan Dahab, Mohammed Yehia

Subjects

*DEEP learning, *X-ray imaging, *COVID-19 testing, *COVID-19 pandemic, *CONVOLUTIONAL neural networks, *COVID-19

Abstract

In this study, we searched for the latest literature on the use of deep learning applications to combat COVID-19 and these were identified from several search engines including IEEE Xplore, Google Scholar, PubMed, and Scopus. This involved a comprehensive analysis of the studies to identify the challenges associated with the use of deep learning models with a view to highlight the possible future trends in the development of deep learning systems that are efficient and more reliable for the diagnosis of COVID-19 patients. This paper provides information related to the deep learning techniques used to detect COVID-19. This paper discusses the Convolutional Neural Networks’ (CNNs) structure, how to train CNNs, and highlights the different pre-trained models of CNNs that can be used for the detection of COVID-19. This paper explores the latest developments in the diagnosis of COVID-19 using deep learning applications that rely on the use of X-ray images taken from medical imaging samples. A review of the different models developed to facilitate effective diagnosis of COVID-19 provides information regarding the experimental data, the data splitting techniques used, as well as the proposed architecture for detecting COVID-19 and the different evaluation metrics for each model. This paper is a useful resource for medical and technical experts, as it helps them to develop a sound understanding of how deep learning techniques can be harnessed to stop the spread of COVID-19. [ABSTRACT FROM AUTHOR]

Published

2022

2. A Review of Deep Learning-based Human Activity Recognition on Benchmark Video Datasets.

Author

Sharma, Vijeta, Gupta, Manjari, Pandey, Anil Kumar, Mishra, Deepti, and Kumar, Ajai

Subjects

*HUMAN activity recognition, *DEEP learning, *ARTIFICIAL intelligence, *VIDEO surveillance, *ELECTRONIC data processing, *BEHAVIORAL assessment

Abstract

Different types of research have been done on video data using Artificial Intelligence (AI) deep learning techniques. Most of them are behavior analysis, scene understanding, scene labeling, human activity recognition (HAR), object localization, and event recognition. Among all these, HAR is one of the challenging tasks and thrust areas of video data processing research. HAR is applicable in different areas, such as video surveillance systems, human-computer interaction, human behavior characterization, and robotics. This paper aims to present a comparative review of vision-based human activity recognition with the main focus on deep learning techniques on various benchmark video datasets comprehensively. We propose a new taxonomy for categorizing the literature as CNN and RNN-based approaches. We further divide these approaches into four sub-categories and present various methodologies with their experimental datasets and efficiency. A short comparison is also made with the handcrafted feature-based approach and its fusion with deep learning to show the evolution of HAR methods. Finally, we discuss future research directions and some open challenges on human activity recognition. The objective of this survey is to give the current progress of vision-based deep learning HAR methods with the up-to-date study of literature. [ABSTRACT FROM AUTHOR]

Published

2022

3. A Comprehensive Artificial Intelligence Based User Intention Assessment Model from Online Reviews and Social Media.

Author

Sharma, Archika and Shafiq, M. Omair

Subjects

*ARTIFICIAL intelligence, *DEEP learning, *INTERNET forums, *CONSUMERS' reviews, *SOCIAL media, *CONSUMER behavior, *INTENTION

Abstract

Predictive analytics is being increasingly used to predict various aspects of applications and users. It offers vast opportunities in the growth of the modern era's business transformation by enabling automated decision-making processes. Being able to determine the intention of users in an automated way is one of the important factors in enabling automated decision-making for applications and businesses using such applications. In this paper, we utilize and build upon the existing works, and propose a comprehensive intention assessment model that detects different possible intents of users by analyzing their text-based reviews on online forums, retail market websites, or on social media. If the information about a product or service experience is present somewhere in a review or post, our technique can accurately segregate different possible purchase intention labels (i.e., positive, negative, and unknown). Our proposed comprehensive model for intention assessment includes extensive data pre-processing, extended feature selection model, utilization of artificial intelligence (machine learning and deep learning) techniques, and customized cost and loss functions. We built a comprehensive testbed and carried out evaluations and comparisons. Our solution demonstrates high accuracy, precision, and F1 score. The proposed solution helps in mining and gaining deeper insights into behavior of consumers and market tendencies and can help in making informed decisions. [ABSTRACT FROM AUTHOR]

Published

2022

4. A survey on evolutionary machine learning.

Author

Al-Sahaf, Harith, Bi, Ying, Chen, Qi, Lensen, Andrew, Mei, Yi, Sun, Yanan, Tran, Binh, Xue, Bing, and Zhang, Mengjie

Subjects

*ARTIFICIAL intelligence, *COMPUTER vision, *DEEP learning, *EVOLUTIONARY computation, *MACHINE learning, *SEAFOOD industry, *WINE industry

Abstract

Artificial intelligence (AI) emphasises the creation of intelligent machines/systems that function like humans. AI has been applied to many real-world applications. Machine learning is a branch of AI based on the idea that systems can learn from data, identify hidden patterns, and make decisions with little/minimal human intervention. Evolutionary computation is an umbrella of population-based intelligent/learning algorithms inspired by nature, where New Zealand has a good international reputation. This paper provides a review on evolutionary machine learning, i.e. evolutionary computation techniques for major machine learning tasks such as classification, regression and clustering, and emerging topics including combinatorial optimisation, computer vision, deep learning, transfer learning, and ensemble learning. The paper also provides a brief review of evolutionary learning applications, such as supply chain and manufacturing for milk/dairy, wine and seafood industries, which are important to New Zealand. Finally, the paper presents current issues with future perspectives in evolutionary machine learning. [ABSTRACT FROM AUTHOR]

Published

2019

5. Energy simulation and variable analysis of refining process in thermo-mechanical pulp mill using machine learning approach.

Author

Talebjedi, B., Laukkanen, T., Holmberg, H., Vakkilainen, E., and Syri, S.

Subjects

*PULP mills, *MACHINE learning, *MILLING-machines, *ARTIFICIAL intelligence, *METAL refining, *DEEP learning, *PATTERN recognition systems

Abstract

Data from two thermo-mechanical pulp mills are collected to simulate the refining process using deep learning. A multilayer perceptron neural network is utilized for pattern recognition of the refining variables. Results show the impressive capability of artificial intelligence methods in refining energy simulation so that the correlation coefficient of 98% is accessible. A comprehensive parametric study has been made to investigate the effect of refining disturbance variables, plate gap and dilution water on refining energy simulation. The generated model reveals the non-linear hidden pattern between refining variables, which can be used for optimal refining control strategy. Considering the disturbance variables' effect in refining energy simulation, model accuracy could increase by 15%. Removing the plate gape from predictive variables reduces the simulation determination coefficient by up to 25% in both mills, while the mentioned value for removing dilution water is 9–17% in mill 1 and about 35% in mill 2. [ABSTRACT FROM AUTHOR]

Published

2021