An edge-IoT water quality index (IoT-WQI) for first-line screening: accelerating computation via deterministic mathematical equations and grouped AHP
摘要
Real-time water quality monitoring remains challenging due to the high latency of centralized laboratory analysis and the substantial computational payload of Machine Learning (ML) inference. While existing Internet of Things (IoT) frameworks deploy raw sensors, they frequently lack a standalone Edge calculation layer capable of operating completely independent of cloud infrastructure. This study proposes a mathematical-based Internet of Things Water Quality Index (IoT-WQI) architecture engineered specifically to act as an autonomous Fog/Edge Node for immediate first-line screening. The framework reduces continuous cloud dependency and network communication overhead by circumventing ML dependencies, replacing discrete look-up tables with mathematically continuous Gaussian and Polynomial Curve Fitting. This zero-training algorithmic optimization accelerates local computation by 83.55% over traditional linear interpolation and reduces network payload transmission bandwidth by 83.3%, while achieving an exceptional approximation fidelity (