Галерея 3464542
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Галерея 3464542
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Vermillion: Oil Painting Simulation In Virtual Reality: A new tool for digital artists offering the analog control of traditional painting with the benefits of a virtual environment.
Published: 06 August 2021 Publication History
SIGGRAPH '21: ACM SIGGRAPH 2021 Immersive Pavilion
Qualifiers abstract Research Refereed limited
Overall Acceptance Rate 1,497 of 6,972 submissions, 21%
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Digital art has come a long way since the first release of MS Paint. And while artists can already work wonders with the tools at their disposal, there's always been a very distinct barrier between traditional mediums and the digital ones. Instead of brushes on a canvas, a stylus on a screen is used. Instead of mixing paints of different colors and thickness, a color picker and transparency slider are presented. The instinctiveness and versatility of bristles on canvas have been replaced with a selection of discrete tools - draw, blur, smudge,... It's also not possible to make strokes with large gestures, to work on your piece from arm's length, like the old masters did. The typical texture that physical paint has is also lost in drawing programs. Vermillion offers a new tool for digital artists, be they novices who always wanted to try their hand at following along with Bob Ross, or veteran Photoshop users who long for more analog control. It simulates the full oil painting experience. A selection of specialist brushes is offered, each with unique characteristics and their distinct brush pattern. The bristles bend as they are pushed against a surface, soaking up the paint that's on the palette. The paints mix as they would in the real world, not as RGB colors do on a monitor. Paint thinner can be used to control the thickness and flow of the paint. The paint can be pushed, pulled, blurred and blended on the canvas, and shows the relief and pattern of your strokes. The resulting piece can be exported to be presented as a new digital work of art.
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J Biol Chem
v.287(41); 2012 Oct 5
PMC3464542
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J Biol Chem. 2012 Oct 5; 287(41): 34361–34371.
Published online 2012 Aug 21. doi: 10.1074/jbc.M112.365882
From the ‡ Nelson Institute of Environmental Medicine, New York University School of Medicine, Tuxedo, New York 10987 and
the § Zhejiang Province Key Laboratory of Medical Genetics, School of Life Science, Wenzhou Medical College, Wenzhou, Zhejiang 325035, China
2 To whom correspondence should be addressed: Nelson Institute of Environmental Medicine, New York University School of Medicine,57 Old Forge Road, Tuxedo, NY 10987., Tel.: 845-731-3519; Fax: 845-351-2320; E-mail: ude.uyn.dem.vne@uhsnauhc .
1 A summer student from Monroe-Woodbury High School, 155 Dunderberg Road, Central Valley, NY 10917.
Received 2012 Mar 26; Revised 2012 Aug 16
Copyright © 2012 by The American Society for Biochemistry and Molecular Biology, Inc.
Keywords: Hypoxia-inducible Factor (HIF), Jun N-terminal Kinase (JNK), mRNA Decay, Nickel, Signal Transduction, Nucleolin
HIF hypoxia-inducible factor MEF mouse embryonic fibroblasts UTR untranslated region TTP tristetraprolin DMOG dimethyloxalylglycine HRE hypoxia-responsive element PHD prolyl hydroxlyase domain Act actinomycin.
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Articles from The Journal of Biological Chemistry are provided here courtesy of American Society for Biochemistry and Molecular Biology
1.
Grandjean P. (1984) Human exposure to nickel . IARC. Sci. Publ.
53 , 469–485 [ PubMed ] [ Google Scholar ] [ Ref list ]
2.
Furst A. (1984) Mechanism of action of nickel as a carcinogen: needed information . IARC. Sci. Publ.
53 , 245–252 [ PubMed ] [ Google Scholar ] [ Ref list ]
3.
Salnikow K., Zhitkovich A. (2008) Genetic and epigenetic mechanisms in metal carcinogenesis and cocarcinogenesis: nickel, arsenic, and chromium . Chem. Res. Toxicol.
21 , 28–44 [ PMC free article ] [ PubMed ] [ Google Scholar ] [ Ref list ]
4.
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