This book examines the application of artificial intelligence methods to model economic data. It addresses causality and proposes new frameworks for dealing with this issue. It also applies evolutionary computing to model evolving economic environments.
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Cybercrime is a major concern for corporations, business owners, governments and citizens, and it continues to grow in spite of increasing investments in security and fraud prevention. The main challenges in this research field are: being able to detect unknown attacks, and reducing the false positive ratio. The aim of this research work was to target both problems by leveraging four artificial intelligence techniques. The first technique is a novel unsupervised learning method based on skip-gram modeling. It was designed, developed and tested against a public dataset with popular intrusion patterns. A high accuracy and a low false positive rate were achieved without prior knowledge of attack patterns. The second technique is a novel unsupervised learning method based on topic modeling. It was applied to three related domains (network attacks, payments fraud, IoT malware traffic). A high accuracy was achieved in the three scenarios, even though the malicious activity significantly differs from one domain to the other. The third technique is a novel unsupervised learning method based on deep autoencoders, with feature selection performed by a supervised method, random forest. Obtained results showed that this technique can outperform other similar techniques. The fourth technique is based on an MLP neural network, and is applied to alert reduction in fraud prevention. This method automates manual reviews previously done by human experts, without significantly impacting accuracy.
AbstractThis paper discusses the factors affecting quality of school educational process. It describes the application of artificial intelligence approaches (neural networks) into the educational process. The analysis of methods for tracking changes in the position of the head while studying at school or at home is presented. The results obtained make it possible to evaluate the psycho‐physiological, psycho‐emotional state of primary school students in the process of interacting with a computer when performing educational tasks. The goal is to create computer tools that monitors changes in head position using images from a laptop or tablet digital camera. This article presents the stages of developing a neural network for assessing head turns when performing a school assignment and the results of applying the program. A new tool is proposed for assessing the state of a student in the learning process, to determine the ability to perceive different types of educational information.
As of 27 December 2021, SARS-CoV-2 has infected over 278 million persons and caused 5.3 million deaths. Since the outbreak of COVID-19, different methods, from medical to artificial intelligence, have been used for its detection, diagnosis, and surveillance. Meanwhile, fast and efficient point-of-care (POC) testing and self-testing kits have become necessary in the fight against COVID-19 and to assist healthcare personnel and governments curb the spread of the virus. This paper presents a review of the various types of COVID-19 detection methods, diagnostic technologies, and surveillance approaches that have been used or proposed. The review provided in this article should be beneficial to researchers in this field and health policymakers at large.
As of 27 December 2021, SARS-CoV-2 has infected over 278 million persons and caused 5.3 million deaths. Since the outbreak of COVID-19, different methods, from medical to artificial intelligence, have been used for its detection, diagnosis, and surveillance. Meanwhile, fast and efficient point-of-care (POC) testing and self-testing kits have become necessary in the fight against COVID-19 and to assist healthcare personnel and governments curb the spread of the virus. This paper presents a review of the various types of COVID-19 detection methods, diagnostic technologies, and surveillance approaches that have been used or proposed. The review provided in this article should be beneficial to researchers in this field and health policymakers at large.
Farahnaz Sadoughi,1 Zahra Kazemy,1 Farahnaz Hamedan,1 Leila Owji,1 Meysam Rahmanikatigari,2 Tahere Talebi Azadboni1 1Department of Health Information Management, School of Health Management and Information Sciences, Iran University of Medical Sciences, Tehran, Iran; 2Social Determinants of Health Research Center, Saveh University of Medical Sciences, Saveh, Iran Abstract: Breast cancer is the most common cancer among women around the world. Despite enormous medical progress, breast cancer has still remained the second leading cause of death worldwide; thus, its early diagnosis has a significant impact on reducing mortality. However, it is often difficult to diagnose breast abnormalities. Different tools such as mammography, ultrasound, and thermography have been developed to screen breast cancer. In this way, the computer helps radiologists identify chest abnormalities more efficiently using image processing and artificial intelligence (AI) tools. This article examined various methods of AI using image processing to diagnose breast cancer. It was a review study through library and Internet searches. By searching the databases such as Medical Literature Analysis and Retrieval System Online (MEDLINE) via PubMed, Springer, IEEE, ScienceDirect, and Gray Literature (including Google Scholar, articles published in conferences, government technical reports, and other materials not controlled by scientific publishers) and searching for breast cancer keywords, AI and medical image processing techniques were extracted. The results were provided in tables to demonstrate different techniques and their results over recent years. In this study, 18,651 articles were extracted from 2007 to 2017. Among them, those that used similar techniques and reported similar results were excluded and 40 articles were finally examined. Since each of the articles used image processing, a list of features related to the image used in each article was also provided. The results showed that support vector machines had the highest accuracy percentage for different types of images (ultrasound =95.85%, mammography =93.069%, thermography =100%). Computerized diagnosis of breast cancer has greatly contributed to the development of medicine, is constantly being used by radiologists, and is clear in ethical and medical fields with regard to its effects. Computer-assisted methods increase diagnosis accuracy by reducing false positives. Keywords: breast cancer, breast cancer screening techniques, artificial intelligence techniques, medical image processing
This master work describes the most widely used artificial intelligence methods and the possibilities to apply them in credit risk evaluation which is one of the most important fields in banking and in finance. The main problem here is to evaluate the risk arising when a creditor gives a credit to a particular individual or an enterprise, using various mathematical, statistical or other methods and techniques. This risk arises when the debtor isn't able to pay for the loan to the creditor in time which means additional loss. It can appear in many forms depending on the type of debtor (individ-ual, enterprise, government of an abroad country) and type of financial instrument or action that is done with it (giving of a loan, transactions of financial derivatives, etc.), this is the reason why fi-nancial institutions and for it's evaluation and management use various different methodologies which comprise a lot of methods and techniques from credit scoring (evaluating by a particular formula, usually linear) and evaluating different factors, like management and business strategies or policies, to classification by various criterions by using modern and sophisticated methods, either algebraic, either artificial intelligence and machine learning. This field is widely researched and many new techniques are being found. The research here is concentrated mainly on Support Vector Machines (abbr. SVM) which is one of the most popular artificial intelligence and machine learning techniques and whose effectiveness has been widely proved. This research is done in order to investigate the possibilities to adapt SVM method to the problem described above, and to implement a system which uses one of SVM techniques.
This master work describes the most widely used artificial intelligence methods and the possibilities to apply them in credit risk evaluation which is one of the most important fields in banking and in finance. The main problem here is to evaluate the risk arising when a creditor gives a credit to a particular individual or an enterprise, using various mathematical, statistical or other methods and techniques. This risk arises when the debtor isn't able to pay for the loan to the creditor in time which means additional loss. It can appear in many forms depending on the type of debtor (individ-ual, enterprise, government of an abroad country) and type of financial instrument or action that is done with it (giving of a loan, transactions of financial derivatives, etc.), this is the reason why fi-nancial institutions and for it's evaluation and management use various different methodologies which comprise a lot of methods and techniques from credit scoring (evaluating by a particular formula, usually linear) and evaluating different factors, like management and business strategies or policies, to classification by various criterions by using modern and sophisticated methods, either algebraic, either artificial intelligence and machine learning. This field is widely researched and many new techniques are being found. The research here is concentrated mainly on Support Vector Machines (abbr. SVM) which is one of the most popular artificial intelligence and machine learning techniques and whose effectiveness has been widely proved. This research is done in order to investigate the possibilities to adapt SVM method to the problem described above, and to implement a system which uses one of SVM techniques.
Cruz-Jesus, F., Castelli, M., Oliveira, T., Mendes, R., Nunes, C., Sa-Velho, M., & Rosa-Louro, A. (2020). Using artificial intelligence methods to assess academic achievement in public high schools of a European Union country. Heliyon, 6(6), [e04081]. https://doi.org/10.1016/j.heliyon.2020.e04081 ; Understanding academic achievement (AA) is one of the most global challenges, as there is evidence that it is deeply intertwined with economic development, employment, and countries' wellbeing. However, the research conducted on this topic grounds in traditional (statistical) methods employed in survey (sample) data. This paper presents a novel approach, using state-of-the-art artificial intelligence (AI) techniques to predict the academic achievement of virtually every public high school student in Portugal, i.e., 110,627 students in the academic year of 2014/2015. Different AI and non-AI methods are developed and compared in terms of performance. Moreover, important insights to policymakers are addressed. ; publishersversion ; publishersversion ; published