Abstract
Electrooculography (EOG) signals indicate the degree and direction of eye movements. Hence, EOG signals have been useful in eye movement controlled rehabilitation systems. Denoising and accurate identification of the type of eye movement in EOG signals are the major challenges in their analysis. The state-of-the-art techniques for EOG signal analysis concerning denoising and eye movement extraction are based on multi-resolution analysis using wavelet bases, such as Haar or Daubechies. However, these wavelets are designed for general purpose signal processing applications and hence are not optimized for the EOG signal structures. In this paper, we propose a new multi-resolution basis specific to the analysis of EOG signals. The scaling and wavelet functions for the basis are derived from the signatures of blinks and saccades respectively, and hence we name them as blinklets and saclets accordingly, thereby forming a new multi-resolution basis. These descriptors are found to be more effective than standard wavelets for EOG signals, signal denoising, and for identifying the different eye movement signatures such as saccades, blinks, smooth pursuits, and fixations, as tested on the Physiosig and Centre for Biomedical Cybernetics Eye Movement (CBC-EM) EOG Databases.
Highlights
E LECTROOCULOGRAPHY (EOG) signal is a measure of the standing electrical potential difference that exists between the cornea and the retina of the eye [1]
We present a new multi-resolution basis for analyzing EOG signals
The low-pass and high-pass analysis filters are defined based on the characteristics of blinks and saccadic signatures respectively
Summary
E LECTROOCULOGRAPHY (EOG) signal is a measure of the standing electrical potential difference that exists between the cornea and the retina of the eye [1]. This signal amplitude indicates how far the eyes have moved from a reference position, while the signal velocity provides information about the direction of the movement [2]. The work in [7] has described an Internet browsing application using EOG for people with a severe motor disability The development of such applications requires the understanding of the different types of eye movements and their
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More From: IEEE transactions on neural systems and rehabilitation engineering : a publication of the IEEE Engineering in Medicine and Biology Society
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