SerialTrack: ScalE and Rotation Invariant Augmented Lagrangian Particle Tracking

Thumbnail
File(s)
Date
2022-03-03
Author
Yang, Jin
Yin, Yue
Landauer, Alexander
Buyuktozturk, Selda
Zhang, Jing
Summey, Luke
McGhee, Alexander
Fu, Matthew
Dabiri, John O.
Franck, Christian
Metadata
Show full item record
Abstract
We present a new particle tracking algorithm to accurately resolve large deformation and rotational motion fields, which takes advantage of both local and global particle tracking algorithms. We call this method the ScalE and Rotation Invariant Augmented Lagrangian Particle Tracking (SerialTrack). This method builds an iterative scale and rotation invariant topology-based feature for each particle within a multi-scale tracking algorithm. The global kinematic compatibility condition is applied as a global augmented Lagrangian constraint to enhance the tracking accuracy. A MATLAB software package implementing this numerical approach to track both 2D and 3D, incremental and cumulative deformation fields is provided.
Subject
Research Subject Categories::TECHNOLOGY
Permanent Link
http://digital.library.wisc.edu/1793/82901
Related Material/Data
https://github.com/FranckLab/SerialTrack
https://app.globus.org/file-manager?origin_id=5a31c526-d832-49b4-826d-96f88e1326ad&origin_path=%2FFranckLab%2F
Type
Dataset
Description
To access the full dataset, follow the Related Data and Materials link or copy and paste the following into your browser: https://app.globus.org/file-manager?origin_id=5a31c526-d832-49b4-826d-96f88e1326ad&origin_path=%2FFranckLab%2F
Citation
Yang, J., Yin, Y., Landauer, A., Buyuktozturk, S., Zhang, J., Summey, L., McGhee, A., Fu, M., Dabiri, J. O., & Franck, C. (2022). SerialTrack: ScalE and Rotation Invariant Augmented Lagrangian Particle Tracking. University of Wisconsin-Madison. https://doi.org/10.21231/0G4M-M977
Part of