Geodesic
Analysis of the development concepts and methods of visual data representation in computational physics
Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 51 (2011) no. 4, pp. 669-683 Cet article a éte moissonné depuis la source Math-Net.Ru

Voir la notice de l'article

Main steps in the development of scientific visualization as a branch of science are discussed. The evolution and prospects of the development of concepts, methods, and approaches of visual representation of numerical results obtained in computational physics (mainly, in computational fluid dynamics) are discussed. 
@article{ZVMMF_2011_51_4_a11,
     author = {A. E. Bondarev and V. A. Galaktionov and V. M. Chech\"etkin},
     title = {Analysis of the development concepts and methods of visual data representation in computational physics},
     journal = {\v{Z}urnal vy\v{c}islitelʹnoj matematiki i matemati\v{c}eskoj fiziki},
     pages = {669--683},
     year = {2011},
     volume = {51},
     number = {4},
     language = {ru},
     url = {http://geodesic.mathdoc.fr/item/ZVMMF_2011_51_4_a11/}
}
TY  - JOUR
AU  - A. E. Bondarev
AU  - V. A. Galaktionov
AU  - V. M. Chechëtkin
TI  - Analysis of the development concepts and methods of visual data representation in computational physics
JO  - Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki
PY  - 2011
SP  - 669
EP  - 683
VL  - 51
IS  - 4
UR  - http://geodesic.mathdoc.fr/item/ZVMMF_2011_51_4_a11/
LA  - ru
ID  - ZVMMF_2011_51_4_a11
ER  - 
%0 Journal Article
%A A. E. Bondarev
%A V. A. Galaktionov
%A V. M. Chechëtkin
%T Analysis of the development concepts and methods of visual data representation in computational physics
%J Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki
%D 2011
%P 669-683
%V 51
%N 4
%U http://geodesic.mathdoc.fr/item/ZVMMF_2011_51_4_a11/
%G ru
%F ZVMMF_2011_51_4_a11
A. E. Bondarev; V. A. Galaktionov; V. M. Chechëtkin. Analysis of the development concepts and methods of visual data representation in computational physics. Žurnal vyčislitelʹnoj matematiki i matematičeskoj fiziki, Tome 51 (2011) no. 4, pp. 669-683. http://geodesic.mathdoc.fr/item/ZVMMF_2011_51_4_a11/

[1] Mueller T. J., “Flow visualization by direct injection”, Fluid Mech. Measurements, Hemisphere Pubk. Co., 1983, 307–375

[2] http://www.aviaport.ru/directory/dict/?id=2503 & char=240 & type=Term & page=10

[3] M. Van-Daik (red.), Albom techenii zhidkosti i gaza, Mir, M., 1986

[4] Belozerov A. F., Opticheskie metody vizualizatsii gazovykh potokov, Izd-vo KGTU, Kazan, 2007

[5] Bayakovskii Yu. M., Galaktionov V. A., Mikhailova T. N., GRAFOR. Graficheskoe rasshirenie Fortrana, Nauka, M., 1985

[6] Yu. A. Kuznetsov (red.), Matematicheskoe obespechenie grafopostroitelei. II uroven. SMOG., Instruktsiya po programmirovaniyu, VTs SO AN SSSR, Novosibirsk, 1976

[7] Woodsford P. A., “The design and implementation of the GINO 3D graphics software package. SOFTWARE”, Practice and Experience, 1:4 (1971), 335–365 | DOI

[8] McCormick B., DeFanti T., Brown M., Visualization in scientific computing, ACM Press, New York, 1987

[9] Primenenie metodov nauchnoi vizualizatsii v prikladnykh zadachakh, MGU, M., 2000

[10] Nauchnaya vizualizatsiya v prikladnykh zadachakh, MGU, M., 2003

[11] Mogilenskikh D. V., Pavlov I. V., Fedorov V. V. i dr., Printsipy postroeniya i funktsionalnoe soderzhanie sistemy vizualizatsii dlya analiza skalyarnykh i vektornykh polei, zadannykh na dvumernykh regulyarnykh setkakh, Preprint No 172, RFYaTs-VNIITF, Snezhinsk, 2000

[12] Mogilenskikh D. V., Pavlov I. V., Sapozhnikova E. E., “Metody trekhmernogo graficheskogo predstavleniya dvumernykh dannykh rezultatov resheniya zadach matematicheskoi fiziki”, Tr. mezhdunar. konf. “V Zababakhinskie nauchn. chteniya” (Snezhinsk, 1998), 136–137

[13] Bondarev A. E., Bondarev E. N., “Funktsii vizualizatsii v vychislitelnoi aerogazodinamike”, Obscheros. nauchno-tekhn. zhurnal “Polet”. M.: Mashinostr., 2000, no. 10, 53–60

[14] Goryachev V. D., “Vizualizatsiya rezultatov raschetov v I CS2 – setevoi informatsionno-vychislitelnoi sisteme modelirovaniya termogidrodinamicheskikh protsessov”, Primenenie metodov nauchn. vizualizatsii v prikl. zadachakh, MGU, M., 2000, 19–36

[15] Gudzovskii A. V., Klimenko S. V., “Vizualizatsiya svobodno-konvektivnykh techenii zhidkosti v polosti”, Tr. mezhdunar. konf. po kompyuternoi grafike GRAFIKON-1998, MGU, M., 1998, 31–38

[16] Stolk J., van Wijk J. J., “Surface-particles for 3D flow visualization”, Advances in Scient. Visualization, Springer, Berlin, 1992, 119–130

[17] Selvachev A. Yu., Aksenov A. A., Klimenko S. V., “Animatsionnaya vizualizatsiya trekhmernykh vektornykh polei”, Tr. mezhdunar. konf. po kompyuternoi grafike GRAFIKON-1998, MGU, M., 1998, 53–56

[18] Forsell L. K., Cohen S. D., “Using line integral convolution for flow visualization: Curvilinear grids, variable-speed animation and unsteady flows”, IEEE Trans. Visualization and Comput. Graphics, 1:2 (1995), 133–141 | DOI

[19] Interrante V., Grosch C., “Visualizing 3D flow”, IEEE Comput. Graphics and Applications, 18:4 (1998), 70–74 | DOI

[20] Anikanov A. A., Potiy O. A., “Texture advection for 3D flow visualization”, 13th Internat. Conf. Comput. Graphics: GraphiCon'2003 (M., 2003), 100–105

[21] Mogilenskikh D. V., “Nonlinear color interpretation of physical processes”, Proc. 10th Internat. Conf. Comput. Graphics Vision GRAPHICON'2000 (M., 2000), 202–211

[22] Bazarov S. B., “Primenenie tsifrovoi obrabotki izobrazhenii dlya vizualizatsii rezultatov gazodinamicheskikh raschetov”, Primenenie metodov nauchnoi vizualizatsii v prikl. zadachakh, MGU, M., 2000, 39–42

[23] Afendikov A. L., Levkovich-Maslyuk L. I., Lutskii A. E., Plenkin A. V., “Lokalizatsiya razryvov v polyakh gazodinamicheskikh funktsii s pomoschyu veivlet analiza”, Matem. modelirovanie, 20:7 (2008), 65–84 | Zbl

[24] Kenwright D., Haimes R., “Automatic vortex core detection”, IEEE Comput. Graphics and Applic., 18:4 (1998), 70–74 | DOI

[25] Bondarev A. E., Bondarev E. N., “O trassirovke vikhrevykh struktur”, Nauchn. vizualizatsiya v prikl. zadachakh, MGU, M., 2003, 4–13

[26] Tricoche X., Garth C., “Topological methods for visualizing vortical flows”, Math. Foundations Scient. Visualization, Computer Graphics, and Massive Data Exploration, Springer, Berlin, 2009, 89–108

[27] Alekseev A. K., Bondarev A. E., “Vizualizatsiya perenosa pogreshnosti pri raschete polya techeniya”, Nauchn. vizualizatsiya v prikl. zadachakh, MGU, M., 2003, 4–13

[28] Bondarev A. E., “Primenenie metodov vizualizatsii dlya optimizatsii gibridnykh raznostnykh skhem s uchetom vliyaniya vyazkosti i turbulentnosti”, Tr. I mezhdunar. konf. “Trekhmernaya vizualizatsiya nauchnoi, tekhn. i sotsialnoi realnosti. Klasternye tekhnologii modelirovaniya”, v. 1, UdGU, Izhevsk, 2009, 120–123

[29] Uselton S., “ExVis: developing A wind tunnel data visualization tool”, Proc. IEEE Visualization 97, ACM Press, New York, 1997. Oct., 417–420

[30] CFD software COMGA – COnvection in microgravity and applications http://www.comga.ru

[31] Nesterov I. A., “Interaktivnaya vizualizatsiya vektornykh polei na raspredelennykh vychislitelnykh sistemakh”, Matem. modelirovanie, 20:6 (2008), 3–14

[32] Iakobovski M., Nesterov I., Krinov P., “Large distributed datasets visualization software, progress and opportunities”, Comput. Graphics Geometry, 9:2 (2007), 1–19

[33] Cruz-Neira C., Sandin D., DeFanti T., “Surround-screen projection-based virtual reality: The design and implementation of the CAVE”, SIGGRAPH'93: Proc. 20th Ann. Conf. on Comput. Graphics and Interactive Techn., 1993, 135–142

[34] Andreev S. V., Galaktionov V. A., Denisov E. Yu., Kirilov N. E., “Sintez fotorealistichnykh trekhmernykh izobrazhenii v sovremennykh sistemakh prezentatsii”, Programmnye produkty i sistemy, 2007, no. 3, 37–40

[35] Vandanov V. G., Dolgovesov B. S., Islamov R. R. i dr., “Programmno-apparatnyi kompleks 3D prezentatsii na osnove virtualnoi studii i virtualnogo okruzheniya”, Tr. I mezhdunar. konf. “Trekhmernaya vizualizatsiya nauchn., tekhn. i sotsialnoi realnosti. Klasternye tekhnologii modelirovaniya”, v. 1, UdGU, Izhevsk, 2009, 73–77

[36] NIH/NSF Visualization research challenges report, IEEE Comput. Soc., 2006

[37] Preusser T., Rumpf M., Telea A., “Flow visualization via partial differential equations”, Math. Foundations of Scient. visualization, comput. Graphics, and Massive Data Exploration, Springer, Berlin, 2009, 157–190

[38] Doleisch H., Mayer M., Gasser M. et al., “Case study: Visual analysis of complex, time-dependent simulation results of a diesel exhaust system”, Proc. VI Joint IEEE TCVG EUROGRAPHICS Symposium on Visualization, 2004, 91–96

[39] Ma Kwan-Liu, “Visualizing visualizations”, IEEE Comput. Graphics and Applic., 20:5 (2000), 16–19 | DOI

[40] van Wijk J. J., “Model-based visualization: Computing perceptually optimal visualizations”, Math. Foundations of Scient. Visualization, Comput. Graphics, and Massive Data Exploration, Springer, Berlin, 2009, 343–350 | Zbl

[41] Belotserkovskii O. M., Chechetkin V. M., Oparin A. M., “Visualization of Hydrodynamic Calculations”, Nauchn. vizualizatsiya v prikl. zadachakh, MGU, M., 2003, 13–20

[42] Bobkov V. A., Melman S. V., “Sistema vizualizatsii prostranstvennykh polei sinopticheskikh ob'ektov”, Tr. mezhdunar. konf. po kompyuternoi grafike GRAFIKON-2006, MGU, M., 2007, 264–268