A Machine Learning Based Framework for the Smart Healthcare Monitoring
This is an incremental improvement for smart healthcare monitoring, specifically targeting fall detection from image streams.
The paper tackles the problem of fall detection in smart healthcare by proposing a framework that compresses, transmits, and reconstructs images using compressed sensing and a machine learning denoiser with ADMM, resulting in significant performance gains compared to traditional methods.
In this paper, we propose a novel framework for the smart healthcare system, where we employ the compressed sensing (CS) and the combination of the state-of-the-art machine learning based denoiser as well as the alternating direction of method of multipliers (ADMM) structure. This integration significantly simplifies the software implementation for the lowcomplexity encoder, thanks to the modular structure of ADMM. Furthermore, we focus on detecting fall down actions from image streams. Thus, teh primary purpose of thus study is to reconstruct the image as visibly clear as possible and hence it helps the detection step at the trained classifier. For this efficient smart health monitoring framework, we employ the trained binary convolutional neural network (CNN) classifier for the fall-action classifier, because this scheme is a part of surveillance scenario. In this scenario, we deal with the fallimages, thus, we compress, transmit and reconstruct the fallimages. Experimental results demonstrate the impacts of network parameters and the significant performance gain of the proposal compared to traditional methods.