From 47f27e5cfdb60d30e7148a8ab8a43cd193a34ff1 Mon Sep 17 00:00:00 2001 From: cas-ustc-meow <51023214+cas-ustc-meow@users.noreply.github.com> Date: Tue, 1 Aug 2023 12:47:24 +0000 Subject: [PATCH] =?UTF-8?q?Deploying=20to=20gh-pages=20from=20@=20GCL-Semi?= =?UTF-8?q?nar/Awesome-Graphics-Papers@22f9c1efd36198a861a01e8c293bdae9d99?= =?UTF-8?q?4f18b=20=F0=9F=9A=80?= MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit --- archives/2023/07/index.html | 154 +++++++++++ archives/2023/index.html | 38 +-- archives/2023/page/2/index.html | 38 +-- archives/2023/page/3/index.html | 19 ++ archives/index.html | 38 +-- archives/page/2/index.html | 38 +-- archives/page/3/index.html | 38 +-- archives/page/4/index.html | 19 ++ hierarchies.html | 2 +- index.html | 143 +++++----- page/2/index.html | 146 +++++------ page/3/index.html | 146 +++++------ page/4/index.html | 73 ++++++ paper-sources.html | 2 +- ... in Applied Mechanics and Engineering.json | 1 + .../index.html | 246 ++++++++++++++++++ .../neural-pyramid-mc-denoising/index.html | 8 + 17 files changed, 833 insertions(+), 316 deletions(-) create mode 100644 archives/2023/07/index.html create mode 100644 paperSources/Computer Methods in Applied Mechanics and Engineering.json create mode 100644 papers/Computer Methods in Applied Mechanics and Engineering/2019/Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures/index.html diff --git a/archives/2023/07/index.html b/archives/2023/07/index.html new file mode 100644 index 0000000..7814e7b --- /dev/null +++ b/archives/2023/07/index.html @@ -0,0 +1,154 @@ + + + + + + Archives: 2023/7 - Awesome Graphics Papers + + + + + + + + + + + + + + + + + + + + + + +
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论文标题:Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures

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论文来源:Computer Methods in Applied Mechanics and Engineering 2019 +

+

论文作者:Dan Wang, Mostafa M. Abdalla, Zhen-Pei Wang, Zhoucheng Su

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论文标签:Topology Optimization

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论文 / 项目链接

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基本信息:

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    +
  • 简介:加强筋结构在壳状结构中(如体育馆穹顶、机翼蒙皮等)对于增强结构强度等至关重要。传统中,工业使用的加强筋结构一般是沿着曲面测地线规则的周期性格状结构,这样的设计便于制造和后期优化。另一方面,自然界也有很多类似于加强筋的壳状结构(睡莲、花生壳、蜻蜓翅膀等),它们不规则的加强筋分布被认为和一些优异的性质密切相关。基于此,本文借鉴了流体力学中流量函数(streamline function)的概念来参数化加强筋走向,并设计了专门的SSPO方法优化这种弯曲不规则加强筋的排布,从而实现了不规则加强筋结构的优化,为加强筋结构设计打开了新的视角。
    • +
  • 相关材料:
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    • 讨论班: 2023-07-29
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论文标题:Machine Learning is the Solution Also for Foveated Path Tracing Reconstruction

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论文来源:VISIGRAPP 2020 -

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论文作者:Atro Lotvonen , Matias Koskela , Pekka Jääskeläinen

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论文标签:Foveated Rendering

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  • 简介:注视点实时路径追踪渲染过程中使用神经网络进行超分辨率重建。
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    • 讨论班: 2023-4-16
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本文提出了一种使用神经网络进行超分辨率重建的注视点路径追踪渲染方法,在视觉极坐标空间中进行路径追踪和去噪后,使用CNN超分辨率网络重建视野外围部分,最后投影到屏幕空间,一定程度上提高了渲染质量。

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+ + + + + Machine Learning is the Solution Also for Foveated Path Tracing Reconstruction + + +
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论文标题:Machine Learning is the Solution Also for Foveated Path Tracing Reconstruction

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论文来源:VISIGRAPP 2020 +

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论文作者:Atro Lotvonen , Matias Koskela , Pekka Jääskeläinen

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论文标签:Foveated Rendering

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论文 / 项目链接

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基本信息:

+
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  • 简介:注视点实时路径追踪渲染过程中使用神经网络进行超分辨率重建。
    • +
  • 相关材料:
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    • 源码:无
      • +
    • 视频:无
      • +
    • 讨论班: 2023-4-16
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    +
    • +
+

本文提出了一种使用神经网络进行超分辨率重建的注视点路径追踪渲染方法,在视觉极坐标空间中进行路径追踪和去噪后,使用CNN超分辨率网络重建视野外围部分,最后投影到屏幕空间,一定程度上提高了渲染质量。

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论文标题:Deep Adaptive Sampling and Reconstruction using Analytic Distributions

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论文作者:Farnood Salehi , Marco Manzi , Gerhard Roethlin , Romann Weber , Christopher Schroers, Marios Papas

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论文标签:Ray tracing

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  • 简介:使用分析分布的自适应采样与重建。
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    • 讨论班: 2023-2-26
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本文提出了一种基于神经网络的用于离线蒙特卡洛渲染的自适应采样方法,该方法生成由给定spp采样数约束的采样图。与之前的方法相比(DEP,DASR),该方法对训练数据的要求更少,同时具有更好的渲染质量。

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论文标题:Deep Adaptive Sampling and Reconstruction using Analytic Distributions

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论文来源:SIGGRAPH-Asia 2022 +

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论文作者:Farnood Salehi , Marco Manzi , Gerhard Roethlin , Romann Weber , Christopher Schroers, Marios Papas

+ +

论文标签:Ray tracing

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论文 / 项目链接

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基本信息:

+
    +
  • 简介:使用分析分布的自适应采样与重建。
    • +
  • 相关材料:
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    • 源码:无
      • +
    • 视频:无
      • +
    • 讨论班: 2023-2-26
      • +
    +
    • +
+

本文提出了一种基于神经网络的用于离线蒙特卡洛渲染的自适应采样方法,该方法生成由给定spp采样数约束的采样图。与之前的方法相比(DEP,DASR),该方法对训练数据的要求更少,同时具有更好的渲染质量。

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论文标题:Vectorization for Fast, Analytic, and Differentiable Visibility

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论文作者:Yang Zhou, Lifan Wu, Ravi Ramamoorthi, Ling-Qi Yan

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论文标签:Ray tracing

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论文标题:Vectorization for Fast, Analytic, and Differentiable Visibility

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论文来源:SIGGRAPH 2021 +

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论文作者:Yang Zhou, Lifan Wu, Ravi Ramamoorthi, Ling-Qi Yan

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论文标签:Ray tracing

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diff --git a/paper-sources.html b/paper-sources.html index ad8bb37..69a0171 100644 --- a/paper-sources.html +++ b/paper-sources.html @@ -71,7 +71,7 @@

-

Acta Mechanica Sinica

2009

CVPR

2022

EG

2019

EGSR

2019

2022

ISMAR

2021

PACMCGIT

2022

PG

2016

SIGGRAPH Asia

2020

2021

  • Monte Carlo Denoising via Auxiliary Feature Guided Self-Attention
  • NeRFactor: Neural Factorization of Shape and Reflectance Under an Unknown Illumination
  • Polarimetric Spatio-Temporal Light Transport Probing
  • HyperNeRF: A Higher-Dimensional Representation for Topologically Varying Neural Radiance Fields
  • Large Steps in Inverse Rendering of Geometry
  • Generative Modelling of BRDF Textures from Flash Images
  • Cascaded Sobol Sampling
  • Physically-based Feature Line Rendering
  • Learning to Cluster for Rendering with Many Lights
  • Differentiable Transient Rendering
  • Fast Volume Rendering with Spatiotemporal Reservoir Resampling
  • Physical Light-Matter Interaction in Hermite-Gauss Space
  • ExtraNet: Real-time Extrapolated Rendering for Low-latency Temporal Supersampling
  • Ensemble Denoising for Monte Carlo Renderings
  • Fast and Accurate Spherical Harmonics Products
  • Beyond Mie Theory: Systematic Computation of Bulk Scattering Parameters based on Microphysical Wave Optics
  • Differentiable Time-Gated Rendering
  • Neural Radiosity
  • Tessellation-Free Displacement Mapping for Ray Tracing
  • Rendering with Style: Combining Traditional and Neural Approaches for High-Quality Face Rendering
  • Neural Frame Interpolation for Rendered Content
  • Path Graphs: Iterative Path Space Filtering

2022

SIGGRAPH

2013

2016

2019

2021

2022

2023

Science

2022

Structural and Multidisciplinary Optimization

2011

TOG

2022

TVCG

2022

VISIGRAPP

2020

+

Acta Mechanica Sinica

2009

CVPR

2022

Computer Methods in Applied Mechanics and Engineering

2019

EG

2019

EGSR

2019

2022

ISMAR

2021

PACMCGIT

2022

PG

2016

SIGGRAPH Asia

2020

2021

  • Monte Carlo Denoising via Auxiliary Feature Guided Self-Attention
  • NeRFactor: Neural Factorization of Shape and Reflectance Under an Unknown Illumination
  • Polarimetric Spatio-Temporal Light Transport Probing
  • HyperNeRF: A Higher-Dimensional Representation for Topologically Varying Neural Radiance Fields
  • Large Steps in Inverse Rendering of Geometry
  • Generative Modelling of BRDF Textures from Flash Images
  • Cascaded Sobol Sampling
  • Physically-based Feature Line Rendering
  • Learning to Cluster for Rendering with Many Lights
  • Differentiable Transient Rendering
  • Fast Volume Rendering with Spatiotemporal Reservoir Resampling
  • Physical Light-Matter Interaction in Hermite-Gauss Space
  • ExtraNet: Real-time Extrapolated Rendering for Low-latency Temporal Supersampling
  • Ensemble Denoising for Monte Carlo Renderings
  • Fast and Accurate Spherical Harmonics Products
  • Beyond Mie Theory: Systematic Computation of Bulk Scattering Parameters based on Microphysical Wave Optics
  • Differentiable Time-Gated Rendering
  • Neural Radiosity
  • Tessellation-Free Displacement Mapping for Ray Tracing
  • Rendering with Style: Combining Traditional and Neural Approaches for High-Quality Face Rendering
  • Neural Frame Interpolation for Rendered Content
  • Path Graphs: Iterative Path Space Filtering

2022

SIGGRAPH

2013

2016

2019

2021

2022

2023

Science

2022

Structural and Multidisciplinary Optimization

2011

TOG

2022

TVCG

2022

VISIGRAPP

2020

diff --git a/paperSources/Computer Methods in Applied Mechanics and Engineering.json b/paperSources/Computer Methods in Applied Mechanics and Engineering.json new file mode 100644 index 0000000..a99efa4 --- /dev/null +++ b/paperSources/Computer Methods in Applied Mechanics and Engineering.json @@ -0,0 +1 @@ +{"sourceInfo":{"name":"Computer Methods in Applied Mechanics and Engineering","fullname":"Computer Methods in Applied Mechanics and Engineering"},"papers":{"2019":[{"name":"Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures"}]}} \ No newline at end of file diff --git a/papers/Computer Methods in Applied Mechanics and Engineering/2019/Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures/index.html b/papers/Computer Methods in Applied Mechanics and Engineering/2019/Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures/index.html new file mode 100644 index 0000000..edc3f02 --- /dev/null +++ b/papers/Computer Methods in Applied Mechanics and Engineering/2019/Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures/index.html @@ -0,0 +1,246 @@ + + + + + + Awesome Graphics Papers + + + + + + + + + + + + + + + + + + + + + + + + + + +
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论文标题:Streamline stiffener path optimization (SSPO) for embedded stiffener layout design of non-uniform curved grid-stiffened composite (NCGC) structures

+

论文来源:Computer Methods in Applied Mechanics and Engineering 2019 +

+

论文作者:Dan Wang, Mostafa M. Abdalla, Zhen-Pei Wang, Zhoucheng Su

+ +

论文标签:Topology Optimization

+

论文 / 项目链接

+ +
+ + + +

基本信息:

+
    +
  • 简介:加强筋结构在壳状结构中(如体育馆穹顶、机翼蒙皮等)对于增强结构强度等至关重要。传统中,工业使用的加强筋结构一般是沿着曲面测地线规则的周期性格状结构,这样的设计便于制造和后期优化。另一方面,自然界也有很多类似于加强筋的壳状结构(睡莲、花生壳、蜻蜓翅膀等),它们不规则的加强筋分布被认为和一些优异的性质密切相关。基于此,本文借鉴了流体力学中流量函数(streamline function)的概念来参数化加强筋走向,并设计了专门的SSPO方法优化这种弯曲不规则加强筋的排布,从而实现了不规则加强筋结构的优化,为加强筋结构设计打开了新的视角。
    • +
  • 相关材料:
      +
    • 讨论班: 2023-07-29
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