Gaussian Process models for respiratory motion compensation

Robert Dürichen, Xiao Fang, Tobias Wissel, Achim Schweikard

Abstract

In robotic radiotherapy, the precise irradiation of moving tumours is possible with technicalsystems like Vero or CyberKnife ® Synchrony. Time latencies have to be considered to performreal-time treatments, which can be compensated by time series prediction of optical markers.Recently, relevance vector machines (RVM) have been investigated for this problem [1]. Theprediction accuracy of this probabilistic method was superior compared to several non-probabilistic methods like Support Vector regression (SVR) and wavelet based least meansquare (wLMS). As each predicted point of RVM is the mean of a normal distribution, thepredicted variance can be used as additional safety feature indicating the “certainty” of thealgorithm. Here, we want to investigate Gaussian Process (GP) models, which are ageneralization of RVM with distinct advantages. First, an arbitrary prediction horizon can beselected. Second, prior knowledge of the function behaviour can be easily included. Third, GPscan be easily extended to multi-dimensional and multitask models. We focus on the selectionof the optimal covariance function.
OriginalspracheEnglisch
Seiten286-287
Seitenumfang2
PublikationsstatusVeröffentlicht - 01.06.2014
Veranstaltung Proceedings of the 28th International Congress and Exhibition on Computer Assisted Radiology and Surgery - Fukuoka, Japan
Dauer: 25.06.201428.06.2014

Tagung, Konferenz, Kongress

Tagung, Konferenz, Kongress Proceedings of the 28th International Congress and Exhibition on Computer Assisted Radiology and Surgery
Kurztitel(CARS'14)
Land/GebietJapan
OrtFukuoka
Zeitraum25.06.1428.06.14

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