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1996 Proceeding- Chairman:
- John Fujii
No abstract available.
Modeling and rendering architecture from photographs: a hybrid geometry- and image-based approach
We present a new approach for modeling and rendering existing architectural scenes from a sparse set of still photographs. Our modeling approach, which combines both geometry-based and image-based techniques, has two components. The first component is a ...
Light field rendering
A number of techniques have been proposed for flying through scenes by redisplaying previously rendered or digitized views. Techniques have also been proposed for interpolating between views by warping input images, using depth information or ...
The lumigraph
This paper discusses a new method for capturing the complete appearance of both synthetic and real world objects and scenes, representing this information, and then using this representation to render images of the object from new camera positions. ...
Progressive meshes
Highly detailed geometric models are rapidly becoming commonplace in computer graphics. These models, often represented as complex triangle meshes, challenge rendering performance, transmission bandwidth, and storage capacities. This paper introduces ...
SKETCH: an interface for sketching 3D scenes
Sketching communicates ideas rapidly through approximate visual images with low overhead (pencil and paper), no need for precision or specialized knowledge, and ease of low-level correction and revision. In contrast, most 3D computer modeling systems ...
OBBTree: a hierarchical structure for rapid interference detection
We present a data structure and an algorithm for efficient and exact interference detection amongst complex models undergoing rigid motion. The algorithm is applicable to all general polygonal models. It pre-computes a hierarchical representation of ...
The virtual cinematographer: a paradigm for automatic real-time camera control and directing
This paper presents a paradigm for automatically generating complete camera specifications for capturing events in virtual 3D environments in real-time. We describe a fully implemented system, called the Virtual Cinematographer, and demonstrate its ...
Cited By
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Boo H, Yang H, Wong C, Lee J and Wang Q (2024). Enhancing augmented reality experience through advanced nanophotonic metasurfaces with expanded eyebox Advances in Display Technologies XIV, 10.1117/12.3002210, 9781510670761, (18)
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Chen K, Hung S, Cheng C, Lan T, Hatsuzawa T, Otani Y, Tutsch R and Yoshizawa T (2023). New type of optical machine system for object depth sensing Optical Technology and Measurement for Industrial Applications Conference, 10.1117/12.3005539, 9781510663411, (14)
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Chen Y, Zhu C, Xiao L and Xue J (2023). Active scene reconstruction via self-rotation driven by optimized information theory Fourteenth International Conference on Graphics and Image Processing (ICGIP 2022), 10.1117/12.2680387, 9781510666313, (125)
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da Nobrega Y, Carvalhal G, Teixeira J, de Camargo B, do Rego T, Almeida Y, Silva Filho T, Vent T, Acciavatti R, Maidment A, Barufaldi B, Bosmans H, Marshall N and Van Ongeval C (2022). Multiclass segmentation of suspicious findings in simulated breast tomosynthesis images using a U-Net Sixteenth International Workshop on Breast Imaging, 10.1117/12.2626225, 9781510655843, (49)
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Teixeira J, Silva Filho T, do Rego T, Malheiros Y, Dustler M, Bakic P, Vent T, Acciavatti R, Krishnamoorthy S, Surti S, Maidment A, Barufaldi B, Zhao W and Yu L (2022). Novel Perlin-based phantoms using 3D models of compressed breast shapes and fractal noise Physics of Medical Imaging, 10.1117/12.2612565, 9781510649378, (127)
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Wu J, Zhu W, Su Y, Gui J, Lepore N, Reiman E, Caselli R, Thompson P, Chen K, Wang Y, Walker A, Rittner L, Romero Castro E, Lepore N, Brieva J and Linguraru M (2021). Predicting Tau accumulation in cerebral cortex with multivariate MRI morphometry measurements, sparse coding, and correntropy Seventeenth International Symposium on Medical Information Processing and Analysis, 10.1117/12.2607169, 9781510650527, (81)
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Fu H, Yang H, Chen C, Zhang H, Hao M, Yu T, Chen S and Qin W (2021). Adaptive LOD representation of terrain model based on quad-tree International Conference on Signal Image Processing and Communication (ICSIPC 2021), 10.1117/12.2600339, 9781510645400, (36)
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Illgner K, Restrepo J, Jaiswal S, Ihrke I, Valenta C, Shaw J and Kimata M (2020). Lightfield imaging for industrial applications SPIE Future Sensing Technologies, 10.1117/12.2580328, 9781510638617, (69)
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Geng L, He J, Bai Z, Zhang J, Su B, Zhang C, Zhang X, Tani M and Zhang C (2019). Simulation of terahertz light field imaging based on single camera Infrared, Millimeter-Wave, and Terahertz Technologies VI, 10.1117/12.2537700, 9781510631090, (49)
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Avramelos V, Van Wallendael G, Lambert P, Tescher A and Ebrahimi T (2019). Overview of MV-HEVC prediction structures for light field video Applications of Digital Image Processing XLII, 10.1117/12.2529137, 9781510629677, (51)
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Krutz U, Lingenauber M, Strobl K, Fröhlich F, Buder M, Fournier C, Georges M and Popescu G (2018). Diffraction model of a plenoptic camera for in-situ space exploration Unconventional Optical Imaging, 10.1117/12.2306743, 9781510618800, (102)
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Wang H, Sang X, Chen D, Yu X, Guo N, Wang P, Yan B, Wang K, Yu C, Wang Y, Li X, Lee B and Tan X (2017). Improved depth estimation with the light field camera Optical Storage and Display Technology, 10.1117/12.2282897, 9781510613997, (5)
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Tescher A, Chiesa V and Dugelay J (2016). Impact of multi-focused images on recognition of soft biometric traits SPIE Optical Engineering + Applications, 10.1117/12.2237297, , (99710Q), Online publication date: 27-Sep-2016.
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Winston R, Gordon J, Jiang L and Winston R (2016). Flow line asymmetric nonimaging concentrating optics SPIE Optical Engineering + Applications, 10.1117/12.2239176, , (99550I), Online publication date: 14-Sep-2016.
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Zhang T, Liu J, Hou G, Liu F and Sun Z (2015). Computer vision research with new imaging technology Ninth International Symposium on Multispectral Image Processing and Pattern Recognition (MIPPR2015), 10.1117/12.2205630, , (981303), Online publication date: 14-Dec-2015.
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Dolinsky M, McDowall I, Frend C and Boyles M (2015). Programmable immersive peripheral environmental system (PIPES): a prototype control system for environmental feedback devices IS&T/SPIE Electronic Imaging, 10.1117/12.2083410, , (939209), Online publication date: 17-Mar-2015.
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Kao D, Hao M, Livingston M, Wischgoll T, Tamm G and Slusallek P (2015). Plugin free remote visualization in the browser IS&T/SPIE Electronic Imaging, 10.1117/12.2077761, , (939705), Online publication date: 8-Feb-2015.
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Bouman C, Sauer K and Solh M (2014). Real-time focal stack compositing for handheld mobile cameras IS&T/SPIE Electronic Imaging, 10.1117/12.2042609, , (90200Z), Online publication date: 7-Mar-2014.
Index Terms
- Proceedings of the 23rd annual conference on Computer graphics and interactive techniques
Recommendations
Acceptance Rates
| Year | Submitted | Accepted | Rate |
|---|---|---|---|
| SIGGRAPH '11 | 432 | 82 | 19% |
| SIGGRAPH '10 | 390 | 103 | 26% |
| SIGGRAPH '09 | 439 | 78 | 18% |
| SIGGRAPH '08 | 518 | 90 | 17% |
| SIGGRAPH '07 | 455 | 108 | 24% |
| SIGGRAPH '06 | 474 | 86 | 18% |
| SIGGRAPH '05 | 461 | 98 | 21% |
| SIGGRAPH '04 | 478 | 83 | 17% |
| SIGGRAPH '03 | 424 | 81 | 19% |
| SIGGRAPH '02 | 358 | 67 | 19% |
| SIGGRAPH '01 | 300 | 65 | 22% |
| SIGGRAPH '00 | 304 | 59 | 19% |
| SIGGRAPH '99 | 320 | 52 | 16% |
| SIGGRAPH '98 | 303 | 45 | 15% |
| SIGGRAPH '97 | 265 | 48 | 18% |
| SIGGRAPH '96 | 247 | 52 | 21% |
| SIGGRAPH '95 | 257 | 56 | 22% |
| SIGGRAPH '94 | 242 | 57 | 24% |
| SIGGRAPH '93 | 225 | 46 | 20% |
| SIGGRAPH '92 | 213 | 45 | 21% |
| SIGGRAPH '90 | 210 | 43 | 20% |
| SIGGRAPH '89 | 190 | 38 | 20% |
| SIGGRAPH '88 | 161 | 34 | 21% |
| SIGGRAPH '87 | 140 | 33 | 24% |
| SIGGRAPH '85 | 175 | 35 | 20% |
| SIGGRAPH '84 | 118 | 41 | 35% |
| SIGGRAPH '81 | 132 | 38 | 29% |
| SIGGRAPH '80 | 140 | 52 | 37% |
| SIGGRAPH '79 | 110 | 43 | 39% |
| SIGGRAPH '78 | 120 | 64 | 53% |
| Overall | 8,601 | 1,822 | 21% |