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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
Volume - 1   Issue - 2    |    Publication Date - August 2007  Table of Contents
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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 ×T ® R , where d E denotes ddimensional Euclidean space, T R { } * = Ç ¥ 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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1 J. Oviedo and J.F. Sanz, "Molecular dynamics simulation of (na2o)x(sio2)1-x glasses relation between distribution and diffusive behaviour of na atoms". Physics Review B, 1998. 58: p. 9047.
2 P. Jund, W. Kob, and R. Jullien, "Channel Diffusion of sodium in a silicate glass". Physics Review B, 2001. 64.
3 E. Sunyer, et al., "Molecular dynamics study of the diffusion of sodium in amorphous silica". Journal of Non- Crystalline, 2002. 939: p. 307-310.
4 A. Meyer, et al., "Channel formation and intermediate range order in sodium silicate melts and glasses". Physical Review Letters, 2004. 93(22): p. 027801.1-027801.4.
5 J. Habasaki, K.L. Ngai, and Y. Hiwatari, "Time series analysis of ion dynamics in glassy ionic conductors obtained by a molecular dynamics simulation". The Journal of Chemical Physics, 2005. 122: p. 054507.
6 J.M.Sharif, M.S.A.Latiff, and M.A.Ngadi. "Development of a novel method for 3D scientific data mining in Ion Dynamics". in 14th Multi-disciplinary Iranian Researchers Conference in Europe (IRCE 2006). 2006. Salford University.
7 K. Funke, "Jump Relaxation in Solid Electrolytes". Progr. Solid State Chem, 1993. 22: p. 111-195.
8 W. Smith, G.N. Greaves, and M.J. Gillan, "Computer Simulation of Sodium Disilicate Glass". The Journal of Chemical Physics, 1995. 103(8): p. 3091-3097.
9 K.L. Ngai, "Analysis of nmr and conductivity-relaxation measurements in glassy Li2S-SiS2 fast-ion conductors". Physical Review B, 1993. 48(18): p. 13481-13485.
10 K.L. Ngai, G.N. Greaves, and C.T. Moynihan, "Correlation between the activation energies for ionic conductivity for short and long time scales and the kohlrausch stretchting parameter b for ionically conducting solid and melts". Phys. Rev. Lett, 1998. 80: p. 1018-1021.
11 G.N. Greaves and K.L. Ngai, "Reconciling ionic-transport properties with atomic structure in oxide glasses". Phys. Rev. B 52, 1995. 52(9): p. 6358-6380.
12 K.L. Ngai, Y. Wang, and C.T. Moynihan, "The Mixed alkali effect revisited : importance of ion interactions". Journal of Non-Crystalline, 2002. 307-310: p. 999-1011.
13 J. Habasaki and Y. Hiwatari, "Fast and slow dynamics in single and mixed alkali silicate glasses". Journal of Non-Crystalline 320, 2002. 1-3: p. 281-290.
14 K.J. Rao and S. Balasubramanian, "A molecular dynamics study of the mixed alkali effect in silicate glasses". Journal of Non-Crystalline Solids, 1995. 181(1): p. 157-174.
15 G.N. Greaves, "Structure studies of the mixed alkali effect in disilicate glasses". Solid State Ionics, 1998. 105(1-4): p. 243-248.
16 P. Maass, A. Bunde, and M.D. Ingram, "Ion transport anomalies in glasses". Phys. Rev. Lett. 68, 1995: p. 3064-3067.
17 cclrc. The DL\_POLY molecular simulation package. [cited.
18 B. Vessal, et al., "Physics of condensed matter : Statistical mechanics, electronics, optical and magnetic properties". Philosophical Magazine B 60, 1989. 6: p. 753-775.
19 D.J. Costello, et al., "Application of error-contol coding". IEEE Transactions on Information Theory, 2004. 44(6): p. 2531-2560.
20 H. Ren, et al. "Fault diagnosis for substation automation based on Petri nets and coding theory". in Power Engineering Society General Meeting,. 2004.
21 O. Milenkovic. "Analysis of bin model with applications in coding theory". in International Symposium on Information Theory, 2004. ISIT 2004. 2004.
22 D.K. Pradhan. "Logic transformation and coding theory-based frameworks for Boolean satisfiability". in Eighth IEEE International High-Level Design Validation and Test Workshop, 2003. . 2003.
23 A. Fujiwara and H. Nagaoka, "Operational Capacity and pseudoclassicality of quantum channel". IEEE Transactions on Information Theory, 1998. 44(3): p. 1071 - 1086.
24 D.A. Spielman. "models of computation in coding theory". in Thirteenth Annual IEEE Conference on Computational Complexity,. 1998.
25 J. Rosenthal. "Some interesting problems in systems theory which are of fundamental importance in coding theory". in Proceedings of the 36th IEEE Conference on Decision and Control. 1997.
26 R. Srinivasan, S.K. Gupta, and M.A. Breuer, "Novel test pattern generators for pseudoexhaustive testing". IEEE Transactions on Computers, 2000. 49(11): p. 1228 - 1240.
27 T. Berger and V.I. Levenshtein, "Asymptotic efficiency of two-stage disjunctive testing". IEEE Transactions on Information Theory, 2002. 48(7): p. 1741 - 1749.
28 Silverberg, J. Staddon, and J.L. Walker, "Applications of list decoding to tracing traitors". IEEE Transactions on Information Theory, 2003. 49(5).
29 M.A. Jabri, et al. "properties of independent components of self-motion optical flow". in 30th IEEE International Symposium on Multiple-Valued Logic, 2000. (ISMVL 2000) Proceedings. 2000.
30 S.D. Howard and A.R. Calderbank. "relationships between radar ambiguity and coding theory". in IEEE International Conference on Acoustics, Speech, and Signal Processing, 2005. Proceedings. (ICASSP '05). 2005.
31 J.-H. Youn and B. Bose, "A Topology-Independent Transmission scheduling in Multihop Packet Radio Networks". Global Telecommunications Conference, 2001. GLOBECOM '01. IEEE 2001. 3: p. 1918 - 1922
32 L. Ying. "Fractals, neural networks, cellular automata, formal language and coding theory". in IEEE International Conference on Systems, Man and Cybernetics. 1992.
33 J.C. Kieffer, "Sample converses in source coding theory". IEEE Transactions on Information Theory, 1991. 37(2): p. 263 - 268.
34 T. Ishikawa, "Hypercube multiprocessors with bus connections for improving communication performance". IEEE Transactions on Computers, 1995. 44(11): p. 1338 - 1344.
35 A. Vardy, "the intractability of computing the minimum distance of the code". IEEE Transactions on Information Theory, 1997. 43(6): p. 1757 - 1766.
36 A. Garcia and H. Stichtenoth, "algebraic function fields over finite fields with many rational places". IEEE Transactions on Information Theory, 1995. 41(6): p. 1548 - 1563.
37 E.M. Rains, "shadow bounds for self-dual codes". IEEE Transactions on Information Theory, 1998. 44(1): p. 134 - 139.
38 M. Lee, L.D. Floriani, and H. Samet, "Constant-Time Neighbour Finding in Hierarchical Tetrahedral Meshes". Proceedings of the Shape Modeling International 2001 (SMI'01), 2001: p. 286-295.
39 W. Evans, D. Kirkpatrick, and G. Townsend, "Right-triangulated irregular networks". Algorithmica, 2001. 30(2): p. 264-286.
40 Y. Zhou, B. Chen, and A. Kaufman. "Multiresolution tetrahedral framework for visualizing regularvolume data". in Proceedings of Conference on Computer Graphics(VISUALIZATION 97). 1997.
41 T. Gerstner and M. Rumpf, "Multiresolutional Parallel Isosurface Extraction based on Tetrahedral Bisection ". In Proceedings 1999 Symposium on Volume Visualization, ACM Press, 1999.
42 T. Tzouramanis, M. Vassilakopoulos, and Y. Manolopoulos, "Multiversion Linear Quadtree for Spatio- Temporal Data". ADBIS: East European Symposium on Advances in Databases and Information Systems, 2001: p. 279-292.
43 F.B. Atalay and D.M. Mount. "Pointerless Implementation of Hierarchical Simplicial Meshes and Efficient Neighbor Finding in Arbitrary Dimensions". in Proc. International Meshing Roundable (IMR 2004). 2004.
44 I. Gargantini, "An Effective Way to Represent Quadtrees". Communications of the ACM 1982. 25(12): p. 905-910.
45 S.-X. Li and M.H. Loew, "Adjacency Detection Using Quadcodes". Communications of the ACM 1987. 30(7): p. 627-631.
46 M.A. Ouksel, and Yaagoub, A., "The Interpolation-based bintree and encoding of binary images". CVGIP:Graphical Models and Image Processing, 1992. 54(1): p. 75-81.
47 S.-H. Lin, et al., "An efficient ,ethod for obtaining the level of the bincode". CVGIP:Graphical Models and Image Processing, 2003: p. 773-777.
48 D. Sarkar, "Boolean function-based approach for encoding of binary images". Pattern Recognit. Lett., 1996. 17(8): p. 839-848.
49 D. Sarkar, "Operation on binary images encoded as minimized boolean functions". Pattern Recognit. Lett., 1997. 18: p. 455-463.
50 J.-G. Wu and K.-L. Chung, "A New Binary Image Representation : Logicodes". Journal of Visual Communication and Image Representation, 1997. 8(3): p. 291-298.
51 D.J. Hebert, "Symbolic Local Refinement of Tetrahedral Grids". Journal of Symbolic Computation, 1994. 17(5): p. 457-472.
52 J.M.Sharif, M.A.Ngadi, and M.S.A.Latiff. "Colour Number Coding Scheme for Time-Varying Visualisation in Glassy Ion Trajectories". in MMU International Symposium on Information and Communication Technologies. 2006. Malaysia.
53 S. Roman, "Introduction to coding theory and information theory". 1996, Springer-Verlag, New York, Berlin, Heildelberg: Springer Verlag.
54 R. Hill, "A First Course in Coding Theory". 1991, Ipswich Book Company, Ipswich, UK: Oxford University Press.
55 S. Ling and C. Xing, "Coding Theory : A First Course". 2004, The Edinburgh Building, Cambridge, CB2 2RU, UK: Cambridge University Press.
Mr. J. M. Sharif
- Malaysia
johan@utm.my
Mr. M. S. A. Latiff
- Malaysia
Mr. M. A. Ngadi
-- - Malaysia