A training strategy to reduce classification degradation due to electrode displacements in pattern recognition based myoelectric control

Pattern recognition based myoclectric control systems rely on detecting repeatable patterns at given electrode locations. This work describes an experiment to determine the effect of electrode displacements on pattern classification accuracy, and a classifier training strategy to accommodate this degradation. The results show that electrode displacements adversely affect classification accuracy, but training the system to recognize plausible displacement locations mitigates the effect. Furthermore, a combination of time-domain and autoregressive features appears to yield the best classification accuracy and is least affected by electrode displacements. (C) 2007 Elsevier Ltd. All fights reserved.