Real-Time High-Load Infrastructure Transaction Status Output Prediction Using Operational Intelligence and Big Data Technologies

Федушко, Соломія; Ustyianovych, Taras; Greguš, Michal

doi:10.3390/electronics9040668

Cited by 42 publications

(14 citation statements)

References 19 publications

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“…Artificial intelligence (AI), including machine and deep learning, has been increasingly applied to replace human intelligence and other mathematical algorithms in many fields, such as IT operations and management [19], healthcare [20,21], transportation [22][23][24], education [25], smart cities [26,27], accident and disaster management [28], big data [29], improving computing algorithmic [30,31], spam detection [32], and gender classification [33]. We have mentioned earlier that there are only four ML-based methods for the estimation of contributors in DNA mixtures.…”

Section: Machine Learning In Dna Profilingmentioning

confidence: 99%

TAWSEEM: A Deep-Learning-Based Tool for Estimating the Number of Unknown Contributors in DNA Profiling

et al. 2022

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DNA profiling involves the analysis of sequences of an individual or mixed DNA profiles to identify the persons that these profiles belong to. A critically important application of DNA profiling is in forensic science to identify criminals by finding a match between their blood samples and the DNA profile found on the crime scene. Other applications include paternity tests, disaster victim identification, missing person investigations, and mapping genetic diseases. A crucial task in DNA profiling is the determination of the number of contributors in a DNA mixture profile, which is challenging due to issues that include allele dropout, stutter, blobs, and noise in DNA profiles; these issues negatively affect the estimation accuracy and the computational complexity. Machine-learning-based methods have been applied for estimating the number of unknowns; however, there is limited work in this area and many more efforts are required to develop robust models and their training on large and diverse datasets. In this paper, we propose and develop a software tool called TAWSEEM that employs a multilayer perceptron (MLP) neural network deep learning model for estimating the number of unknown contributors in DNA mixture profiles using PROVEDIt, the largest publicly available dataset. We investigate the performance of our developed deep learning model using four performance metrics, namely accuracy, F1-score, recall, and precision. The novelty of our tool is evident in the fact that it provides the highest accuracy (97%) compared to any existing work on the most diverse dataset (in terms of the profiles, loci, multiplexes, etc.). We also provide a detailed background on the DNA profiling and literature review, and a detailed account of the deep learning tool development and the performance investigation of the deep learning method.

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Section: Machine Learning In Dna Profilingmentioning

confidence: 99%

TAWSEEM: A Deep-Learning-Based Tool for Estimating the Number of Unknown Contributors in DNA Profiling

et al. 2022

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“…Although multiple evidence is frequently detected in traces discovered at a crime scene, extreme fragmentation, or intermixing of the victim remains, this makes traditional recognition regarding the victim's physical and anthropological traits ineffective and inconclusive. Moreover, DNA profiling is the best method for the determination of forensic investigations and suspects in some circumstances and also giving specific victims identification, remains a valuable technique in multiple evidence situations [33]. Human DNA sequences are reported to be nearly identical in 99.9% of cases, only with a 0.1 percent difference, the chances of two people who are not related by blood having the same DNA sequence are around 1 in 594.1 trillion [34].…”

Section: Dna Evidence and Forensic Sciencementioning

confidence: 99%

A Study on DNA Profiling Techniques and Transnational Exchange of DNA Data from Databank

Padmanabhan¹,

Sapna²

2022

RIA

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DNA technology has shown to be a valuable investigative tool in the release of innocent people and the identification of those responsible for serious crimes. In the battle against illegal immigration, cross-border crime, and terrorism, the transnational DNA data interchange from national DNA databanks has become a current trend. The data types that can be shared and the system is managed by a national authority are governed by individual national legislation, which determines the scope of the data exchange. Furthermore, one of the most difficult problems in forensic science is DNA profiling, and it is a hotly debated topic. The number of unknowns in a combination raises the computational difficulty of DNA profiling dramatically. To overcome this issue, various approaches have been designed and implemented. As a result, we examine DNA profiling methodologies and tools in this study, focusing on their computational accuracy and performance. Furthermore, this research examines the available data on DNA exchange and comparison across borders. We hope this review provides more ideas for future research to choose efficient profiling techniques.

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“…This shows that farmers are more willing to adopt the technology when the actual operation of the technology is easier than the farming methods they use at present. In fact, Fedushko et al [39] pointed out that the developed machine learning model made a difference to improve transaction tracing. This helped identify errors, enhance operations, data pipelines to make a project requirement precise, identify use-cases, and apply monitoring for project improvement.…”

Section: Practical Contributionmentioning

confidence: 99%

Willingness and Influencing Factors of Pig Farmers to Adopt Internet of Things Technology in Food Traceability

et al. 2021

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: The Internet of Things technology (IoT) in food traceability provides new ideas to solve the problem of smart production and offers new ideas for the formation of safe and high-quality markets for meat products. However, scholars have studied the combination of blockchain and IoT technology. There is a lack of research on the combination of IoT and food traceability technology. Moreover, previous studies focused on the application of IoT traceability technology, taking farmers’ adoption willingness as an exogenous variable while ignoring its endogeneity. Therefore, it is essential to study farmers’ willingness to adopt IoT traceability technology and find the factors that influence farmers’ adoption intention. Based on survey data from 264 pig farmers in Shaanxi Province, this paper discussed the factors which influence pig farmers’ adoption of the technology by using the Unified Theory of Acceptance and Use of Technology (UTAUT). The results showed that farmers’ adoption intention was influenced by a combination of farmers’ performance expectancy, effort expectancy, social influence, personal innovation, and perceived risk. Personal innovation played a mediating role in effort expectancy and adoption willingness and perceived risk played a moderating role in personal innovation and adoption willingness.

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Real-Time High-Load Infrastructure Transaction Status Output Prediction Using Operational Intelligence and Big Data Technologies

Cited by 42 publications

References 19 publications

TAWSEEM: A Deep-Learning-Based Tool for Estimating the Number of Unknown Contributors in DNA Profiling

TAWSEEM: A Deep-Learning-Based Tool for Estimating the Number of Unknown Contributors in DNA Profiling

A Study on DNA Profiling Techniques and Transnational Exchange of DNA Data from Databank

Willingness and Influencing Factors of Pig Farmers to Adopt Internet of Things Technology in Food Traceability

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