Glyph-based video visualization for semen analysis
IEEE transactions on visualization and computer graphics, 2013•ieeexplore.ieee.org
The existing efforts in computer assisted semen analysis have been focused on high speed
imaging and automated image analysis of sperm motility. This results in a large amount of
data, and it is extremely challenging for both clinical scientists and researchers to interpret,
compare and correlate the multidimensional and time-varying measurements captured from
video data. In this work, we use glyphs to encode a collection of numerical measurements
taken at a regular interval and to summarize spatio-temporal motion characteristics using …
imaging and automated image analysis of sperm motility. This results in a large amount of
data, and it is extremely challenging for both clinical scientists and researchers to interpret,
compare and correlate the multidimensional and time-varying measurements captured from
video data. In this work, we use glyphs to encode a collection of numerical measurements
taken at a regular interval and to summarize spatio-temporal motion characteristics using …
The existing efforts in computer assisted semen analysis have been focused on high speed imaging and automated image analysis of sperm motility. This results in a large amount of data, and it is extremely challenging for both clinical scientists and researchers to interpret, compare and correlate the multidimensional and time-varying measurements captured from video data. In this work, we use glyphs to encode a collection of numerical measurements taken at a regular interval and to summarize spatio-temporal motion characteristics using static visual representations. The design of the glyphs addresses the needs for (a) encoding some 20 variables using separable visual channels, (b) supporting scientific observation of the interrelationships between different measurements and comparison between different sperm cells and their flagella, and (c) facilitating the learning of the encoding scheme by making use of appropriate visual abstractions and metaphors. As a case study, we focus this work on video visualization for computer-aided semen analysis, which has a broad impact on both biological sciences and medical healthcare. We demonstrate that glyph-based visualization can serve as a means of external memorization of video data as well as an overview of a large set of spatiotemporal measurements. It enables domain scientists to make scientific observation in a cost-effective manner by reducing the burden of viewing videos repeatedly, while providing them with a new visual representation for conveying semen statistics.
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