Light-weight configurable architecture for QRS detection
In this study, the authors present a configurable architecture having gate count of and on the fly reconfigurability for low-power biomedical applications such as QRS detection, ExG processing etc. The proposed architecture is a light-weight co-processor that supports on-node digital signal and image processing functions potentially eliminating the power consumed by radios in wireless sensor node and body sensor network. The architecture consists of a 3 × 3 array of register units along with adaptive memory with configurable data path. The architecture can be configured on-the-fly for seven functions with the current memory structure. However, more number of functions can be targeted with increased memory. They demonstrate the realisation of Pan–Tompkins algorithm commonly used for QRS detection on the proposed architecture using the reconfigurability. This work offers reduced area and increase in performance with respect to the existing contemporary literature.