Asynchronous Federated Learning for Improved Cardiovascular Disease Prediction Using Artificial Intelligence.
Muhammad Amir KhanMusleh AlsulamiMuhammad Mateen YaqoobDeafallah AlsadieAbdul Khader Jilani SaudagarMohammed AlKhathamiUmar Farooq KhattakPublished in: Diagnostics (Basel, Switzerland) (2023)
Healthcare professionals consider predicting heart disease an essential task and deep learning has proven to be a promising approach for achieving this goal. This research paper introduces a novel method called the asynchronous federated deep learning approach for cardiac prediction (AFLCP), which combines a heart disease dataset and deep neural networks (DNNs) with an asynchronous learning technique. The proposed approach employs a method for asynchronously updating the parameters of DNNs and incorporates a temporally weighted aggregation technique to enhance the accuracy and convergence of the central model. To evaluate the effectiveness of the proposed AFLCP method, two datasets with various DNN architectures are tested, and the results demonstrate that the AFLCP approach outperforms the baseline method in terms of both communication cost and model accuracy.
Keyphrases
- deep learning
- artificial intelligence
- cardiovascular disease
- neural network
- machine learning
- big data
- convolutional neural network
- pulmonary hypertension
- randomized controlled trial
- systematic review
- magnetic resonance
- type diabetes
- working memory
- left ventricular
- magnetic resonance imaging
- heart failure
- metabolic syndrome
- network analysis
- single cell