Variational Auto-Encoder Based Deep Learning Technique For Filling Gaps in Reacting PIV Data

December 11, 2023 · Declared Dead · 🏛 arXiv.org

"No code URL or promise found in abstract"

Evidence collected by the PWNC Scanner

Authors Shashank Yellapantula arXiv ID 2312.06461 Category physics.flu-dyn Cross-listed cs.LG Citations 0 Venue arXiv.org Last Checked 3 months ago

Abstract

In this study, a deep learning based conditional density estimation technique known as conditional variational auto-encoder (CVAE) is used to fill gaps typically observed in particle image velocimetry (PIV) measurements in combustion systems. The proposed CVAE technique is trained using time resolved gappy PIV fields, typically observed in industrially relevant combustors. Stereo-PIV (SPIV) data from a swirl combustor with very a high vector yield is used to showcase the accuracy of the proposed CVAE technique. Various error metrics evaluated on the reconstructed velocity field in the gaps are presented from data sets corresponding to three sets of combustor operating conditions. In addition to accurate data reproduction, the proposed CVAE technique offers data compression by reducing the latent space dimension, enabling the efficient processing of large-scale PIV data.

📄 View on arXiv 🌐 View on ar5iv 📑 PDF 🎉 Report Code Found

Community Contributions

Found the code? Know the venue? Think something is wrong? Let us know!

📜 Similar Papers

In the same crypt — physics.flu-dyn

R.I.P. 👻 Ghosted

Deep Learning of Vortex Induced Vibrations

Maziar Raissi, Zhicheng Wang, ... (+2 more)

physics.flu-dyn 🏛 J.FM 📚 419 cites 7 years ago

R.I.P. 👻 Ghosted

Efficient collective swimming by harnessing vortices through deep reinforcement learning

Siddhartha Verma, Guido Novati, Petros Koumoutsakos

physics.flu-dyn 🏛 PNAS 📚 405 cites 8 years ago

R.I.P. 👻 Ghosted

NVIDIA SimNet^{TM}: an AI-accelerated multi-physics simulation framework

Oliver Hennigh, Susheela Narasimhan, ... (+8 more)

physics.flu-dyn 🏛 arXiv 📚 135 cites 5 years ago

R.I.P. 👻 Ghosted

Teaching the Incompressible Navier-Stokes Equations to Fast Neural Surrogate Models in 3D

Nils Wandel, Michael Weinmann, Reinhard Klein

physics.flu-dyn 🏛 The Physics of Fluids 📚 60 cites 5 years ago

R.I.P. 👻 Ghosted

Prediction of Reynolds Stresses in High-Mach-Number Turbulent Boundary Layers using Physics-Informed Machine Learning

Jian-Xun Wang, Junji Huang, ... (+2 more)

physics.flu-dyn 🏛 Theoretical and Computational Fluid Dynamics 📚 59 cites 7 years ago

R.I.P. 👻 Ghosted

From Deep to Physics-Informed Learning of Turbulence: Diagnostics

Ryan King, Oliver Hennigh, ... (+2 more)

physics.flu-dyn 🏛 arXiv 📚 58 cites 7 years ago

Died the same way — 👻 Ghosted

R.I.P. 👻 Ghosted

Federated Learning: Strategies for Improving Communication Efficiency

Jakub Konečný, H. Brendan McMahan, ... (+4 more)

cs.LG 🏛 arXiv 📚 5.2K cites 9 years ago

R.I.P. 👻 Ghosted

In-Datacenter Performance Analysis of a Tensor Processing Unit

Norman P. Jouppi, Cliff Young, ... (+73 more)

cs.AR 🏛 ISCA 📚 5.1K cites 9 years ago

R.I.P. 👻 Ghosted

Deep Convolutional Neural Networks for Computer-Aided Detection: CNN Architectures, Dataset Characteristics and Transfer Learning

Hoo-Chang Shin, Holger R. Roth, ... (+7 more)

cs.CV 🏛 IEEE TMI 📚 4.9K cites 10 years ago

R.I.P. 👻 Ghosted

Explanation in Artificial Intelligence: Insights from the Social Sciences

Tim Miller

cs.AI 🏛 AI 📚 4.9K cites 8 years ago