Information Fusion for Seveirty Detection using Machine Learning in Data Mining Healthcare
Improved patient care and less mental strain on healthcare providers are two benefits of using algorithms for machine learning to healthcare data. These algorithms may be used to spot irregularities in vital signs, which might speed up medical assistance or provide light on a disease's progress...
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| Vydané v: | 2023 International Conference on Distributed Computing and Electrical Circuits and Electronics (ICDCECE) s. 1 - 6 |
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| Jazyk: | English |
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IEEE
29.04.2023
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| Abstract | Improved patient care and less mental strain on healthcare providers are two benefits of using algorithms for machine learning to healthcare data. These algorithms may be used to spot irregularities in vital signs, which might speed up medical assistance or provide light on a disease's progression. While there is a wealth of literature comparing the unsupervised and supervised performances of anomaly detection algorithms on popular public datasets, this same level of conceptual comparison is lacking when it comes to physiological data. Knowing one's heart rate may provide valuable insight on one's health and level of physical activity, making it an underutilised data source. Specifically, we used and compared five machine learning methods, two of which were unsupervised and the other three supervised, to identify outliers in heart rate data. The algorithms were tested using physiological data from human subjects' hearts. Results demonstrated that both outlier factor and regression trees algorithms were effective in detecting heart rate anomalies, with both models successfully generalising from their simulation heart rate data training to real-world heart rate data. In addition, the findings lend credence to the idea that, in the absence of real labelled data, simulated data can be used to configure methodologies to a certain degree of performance, indicating that this kind of training could be particularly useful in the initial rollout of a system with no preexisting data. |
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| AbstractList | Improved patient care and less mental strain on healthcare providers are two benefits of using algorithms for machine learning to healthcare data. These algorithms may be used to spot irregularities in vital signs, which might speed up medical assistance or provide light on a disease's progression. While there is a wealth of literature comparing the unsupervised and supervised performances of anomaly detection algorithms on popular public datasets, this same level of conceptual comparison is lacking when it comes to physiological data. Knowing one's heart rate may provide valuable insight on one's health and level of physical activity, making it an underutilised data source. Specifically, we used and compared five machine learning methods, two of which were unsupervised and the other three supervised, to identify outliers in heart rate data. The algorithms were tested using physiological data from human subjects' hearts. Results demonstrated that both outlier factor and regression trees algorithms were effective in detecting heart rate anomalies, with both models successfully generalising from their simulation heart rate data training to real-world heart rate data. In addition, the findings lend credence to the idea that, in the absence of real labelled data, simulated data can be used to configure methodologies to a certain degree of performance, indicating that this kind of training could be particularly useful in the initial rollout of a system with no preexisting data. |
| Author | Bhambu, Pawan Gupta, Vaishali |
| Author_xml | – sequence: 1 givenname: Vaishali surname: Gupta fullname: Gupta, Vaishali email: vaishali.j1631@cgc.ac.in organization: Chandigarh Engineering College,Department of Computer Science & Engineering,Jhanjeri,India – sequence: 2 givenname: Pawan surname: Bhambu fullname: Bhambu, Pawan email: pawan.bhambu@vgu.ac.in organization: Vivekananda Global University,Department of Computer Science Enginnering,Jaipur,India |
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| DOI | 10.1109/ICDCECE57866.2023.10151332 |
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| PublicationTitle | 2023 International Conference on Distributed Computing and Electrical Circuits and Electronics (ICDCECE) |
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| Snippet | Improved patient care and less mental strain on healthcare providers are two benefits of using algorithms for machine learning to healthcare data. These... |
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| SubjectTerms | and Data Mining Healthcare Data models Distributed databases Heart rate Information Fusion Machine learning Machine learning algorithms Medical services Severity Detection Training |
| Title | Information Fusion for Seveirty Detection using Machine Learning in Data Mining Healthcare |
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