Predictive Analytics for Personalized Health Interventions Using Wearable Data

Authors

  • Charu Jain charujain2290@gmail.com

DOI:

https://doi.org/10.36676/dira.v12.i3.66

Keywords:

Predictive Analytics, Personalized Health Interventions, Wearable Data

Abstract

A paradigm change in healthcare, predictive analytics offers improved patient outcomes by anticipating and preventing health problems. Utilizing wearable data has become more important in this setting, offering tailored therapies and real-time, individual health measurements. This area uses the massive volumes of data produced by wearable devices to forecast health outcomes and provide customized therapies. It sits at the nexus of data science, wearable technology, and healthcare. Predictive analytics is the process of analyzing historical and current data using statistical methods and algorithms to forecast future occurrences. In the medical field, this is evaluating patient data to forecast various outcomes, including the beginning, course, and possible hazards of a disease. Heart rate, activity level, sleep habits, and other health parameters are constantly monitored by wearable technology, such as fitness trackers and smartwatches. These gadgets provide vast amounts of rich data, which offer a continuous and comprehensive record of a person's health. Predictive analytics is a multi-step process that starts with data gathering and continues with feature extraction, model creation, validation, and data preparation. To guarantee its quality, wearable device data is first gathered and cleansed. From this data, pertinent features—that is, important health indicators—are then extracted. These characteristics are used in the construction of predictive models, which are frequently based on machine learning algorithms and evaluated to guarantee their accuracy and dependability.

References

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Published

2024-08-15
CITATION
DOI: 10.36676/dira.v12.i3.66
Published: 2024-08-15

How to Cite

Charu Jain. (2024). Predictive Analytics for Personalized Health Interventions Using Wearable Data. Darpan International Research Analysis, 12(3), 188–198. https://doi.org/10.36676/dira.v12.i3.66

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