Accurate and Scalable Anomaly Detection in Maternal Health Monitoring Systems

Anomaly detection plays a crucial role in ensuring the health and well-being of mothers by monitoring various health parameters in real-time. Unlike static health data, maternal health monitoring data is dynamic, possessing properties such as infiniteness, correlations, and changes in data distribution. These properties present challenges for current anomaly detection approaches. Firstly, saving the entire dataset is impractical due to its infiniteness. Secondly, existing methods often fail to consider correlations between different health metrics. Thirdly, changes in data distribution are not adequately addressed because of the absence of model update and change detection strategies. To tackle these issues, we propose aternal health nomaly etection (MAD), a groundbreaking method combines sliding window mechanisms, model adjustments, and change detection strategies within LSHiForest to enhance anomaly detection accuracy and efficiency while ensuring better scalability. This method, termed MAD, includes several key features: (a) the sliding window approach effectively manages the endless nature of data streams; (b) incorporating Singular Value Decomposition (SVD) takes into account the interrelationships among different health metrics; (c) the change detection process, along with model updates, swiftly recognizes shifts in data distribution and retrains models as needed. Comprehensive experiments on relevant maternal health datasets validate the performance of MAD. Results indicate that MAD outperforms existing methods in terms of accuracy, efficiency, and scalability, making it a promising solution for maternal health monitoring.