Evaluation of filtering methods for use on high frequency measurements of landslide displacements

Abstract. Displacement monitoring is a critical control for risks associated with potentially sudden slope failures. Instrument measurements are, however, obscured by the presence of scatter. Data filtering methods aim to reduce the scatter and therefore enhance the performance of early warning systems (EWSs). The effectiveness of EWSs depends on the lag time between the onset of acceleration and its detection by the monitoring system, such that a timely warning is issued for implementation of consequence mitigation strategies. This paper evaluates the performance of three filtering methods (simple moving average, Gaussian-weighted moving average, and Savitzky-Golay), and considers their comparative advantages and disadvantages. The evaluation utilized six levels of randomly generated scatter on synthetic data as well as high-frequency global navigation satellite system (GNSS) displacement measurements at the Ten-mile landslide in British Columbia, Canada. The simple moving average method exhibited significant disadvantages compared to the Gaussian-weighted moving average and Savitzky-Golay approaches. A framework is presented that can be followed to evaluate the adequacy of different algorithms for minimizing monitoring data scatter.