Exploring deep learning: Preventing HIV through social media data

Janet Aderonke Olaboye 1, *, Chukwudi Cosmos Maha 2, Tolulope Olagoke Kolawole 3 and Samira Abdul 4

1 Mediclinic Hospital Pietermaritzburg, South Africa.
2 Public Health Specialist, Albada General Hospital, Tabuk, Saudi Arabia.
3 Independent Researcher, Richmond, Virginia, USA.
4 University of North Florida, USA.
 
Review
International Journal of Biology and Pharmacy Research Updates, 2024, 03(02), 011–023.
Article DOI: 10.53430/ijbpru.2024.3.2.0025
Publication history: 
Received on 18 April 2024; revised on 03 June 2024; accepted on 06 June 2024
 
Abstract: 
This paper explores the potential of deep learning in analyzing social media data to identify and support populations at high risk for HIV. With the widespread use of social media, there is an opportunity to leverage this data source for public health research and intervention. Deep learning, a subset of machine learning that utilizes artificial neural networks to analyze complex data, offers a promising approach to extract meaningful insights from large volumes of social media data. The paper begins with an overview of the HIV epidemic and the importance of early detection and prevention efforts. It then introduces deep learning and its applications in public health, highlighting its ability to analyze unstructured data such as text, images, and videos. A literature review is conducted to examine previous studies on using social media data for health surveillance and the applications of deep learning in this context. The review discusses the challenges and limitations of using social media data for public health research, including issues related to privacy, data bias, and algorithm transparency. The methodology section outlines the data collection process, including the sources of social media data such as Twitter and Facebook, and the preprocessing steps to clean and prepare the data for analysis. The section also describes the deep learning models selected for analyzing social media content and the evaluation metrics used to assess their performance. Case studies are presented to illustrate the application of deep learning in identifying HIV-related discussions on social media platforms, analyzing images for signs of risky behavior, and tracking the spread of HIV-related rumors and misinformation. Ethical considerations related to privacy, data bias, and algorithm transparency are discussed, along with recommendations for future research and application. The paper concludes with a summary of key findings and a call to action for further exploration and implementation of deep learning in public health.
 
Keywords: 
Exploring; Deep Learning; Preventing HIV; Social Media Data; Preventing
 
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