|Title||Optimal Derotation of Shared Acceleration Time Series by Determining Relative Spatial Alignment|
|Publication Type||Conference Paper|
|Year of Publication||2014|
|Authors||Mayrhofer, R., Hlavacs H., & Findling R. Dieter|
|Conference Name||Proc. iiWAS 2014: 16th International Conference on Information Integration and Web-based Applications & Services|
Detecting if two or multiple devices are moved together is an interesting problem for different applications. However, these devices may be aligned arbitrarily with regards to each other, and the three dimensions sampled by their respective local accelerometers can therefore not be directly compared. The typical approach is to ignore all angular components and only compare overall acceleration magnitudes – with the obvious disadvantage of discarding potentially useful information. In this paper, we contribute a method to analytically determine relative spatial alignment of two devices based on their acceleration time series. Our method uses quaternions to compute the optimal rotation with regards to minimizing the mean squared error. The implication is that the reference system of one device can be (locally and independently) aligned with the other, and thus that all three dimensions can consequently be compared for more accurate classification. Based on real-world experimental data from smart phones and smart watches shaken together, we demonstrate the effectiveness of our method with a magnitude squared coherence metric, for which we show an improved EER of 0.16 (when using derotation) over an EER of 0.18 (when not using derotation).
Optimal Derotation of Shared Acceleration Time Series by Determining Relative Spatial Alignment