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Analysis of parameter for Local Colour Scale in Ion Trajectories.
J. M. Sharif, M. S. A. Latiff, M. A. Ngadi
Pages - 18 - 34 | Revised - 15-08-2007 | Published - 30-08-2007
MORE INFORMATION
KEYWORDS
coding theory, spatio-temporal, ion dynamics, streamline, colour scale, visual representation
ABSTRACT
Spatio-temporal dataset is a collection of datasets where data is vary in both space and
time. Theoretically, such a datasets can be considered as a continuous and discrete.
For example, specification of the function, : d n F E Ã—T Â® R , where d E denotes ddimensional
Euclidean space, T R { } * = Ã‡ Â¥ the domain of time and n R an n-dimensional
scalar field. Examples, of such data sets include time-varying simulation results, films
and videos, time-varying medical datasets, geometry models with motion or
deformation, meteorological measurements and many more. It is therefore highly
desirable to use visualisation to summarize meaningful information in higher
dimensional spatio-temporal data sets. In physics, ion trajectories has totally relied on
statistical analysis from experimental and computer simulation results [1-5]. To help the
physicists to identify and trigger the timeline and collaborative events in ion trajectory,
we need the codes to distinguish the events according to timeline-based events. In
coding theory, we need such a code that can represent each of the events in timeline
series. Moreover, the code itself must help in identifying and trigger the events if there is
a collaborative event among chaotic movements of ion trajectories. In particular, we
propose a Colour Number Coding Scheme for depicting the time series of ion
trajectories [6]. We discuss the method of depicting the time series in relation to the
encoding series of timeline events in ion trajectories. We also point out some of the
advantages of this method in terms of accuracy according to human observer.
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Mr. J. M. Sharif
- Malaysia
johan@utm.my
Mr. M. S. A. Latiff
- Malaysia
Mr. M. A. Ngadi
-- - Malaysia