Adaptive, integrated sensor processing to compensate for drift and uncertainty: a stochastic neural approach

An adaptive stochastic classifier based on a simple, novel neural architecture - the Continuous Restricted Boltzmann Machine (CRBM) is demonstrated. Together with sensors and signal conditioning circuits, the classifier is capable of measuring and classifying (with high accuracy) the H/sup +/ ion concentration, in the presence of both random noise and sensor drift. Training on-line, the stochastic classifier is able to overcome significant drift of real incomplete sensor data dynamically. As analogue hardware, this signal-level sensor fusion scheme is therefore suitable for real-time analysis in a miniaturised multisensor microsystem such as a Labin-a-Pill (LIAP).