Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)

Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)

Citation Author(s):
Mahmoud
Abbaszadeh
University of Warwick
Iresha
Atthanayake
University of Warwick
Peter
J. Thomas
University of Warwick
Weisi
Guo
Cranfield University
Submitted by:
Mahmoud Abbaszadeh
Last updated:
Sat, 01/18/2020 - 12:29
DOI:
10.21227/eae4-kg81
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The data set are images taken from the Particle Image Velocimetry (PIV) method and the Planar Laser-Induced Fluorescence (PLIF) method. These methods sets out the macro-scale experimental techniques that can enable fluid dynamic knowledge to inform molecular communication performance and design. Fluid dynamic experiments can capture latent features that allow the receiver to detect coherent signal structures and infer transmit parameters for optimal decoding.

Instructions: 

There are four zip files where ‘PLIF-Calibration’ and ‘PLIF-Test’ are for the PLIF experiment and ’ PIV-15 fps’ and ’ PIV-90 fps’ are for the PIV experiment. In the PLIF folders, one can find images and MATLAB codes for the processing the images. The images in the Test folder have been recorded with a frame rate of 2 fps. In the PIV folders, one can find two sets of images for frame rates of 15 and 90 fps. The first image in each set is the calibration image. 

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[1] Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo, "Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)", IEEE Dataport, 2020. [Online]. Available: http://dx.doi.org/10.21227/eae4-kg81. Accessed: Feb. 27, 2020.
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author = {Mahmoud Abbaszadeh; Iresha Atthanayake; Peter J. Thomas; Weisi Guo },
publisher = {IEEE Dataport},
title = {Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)},
year = {2020} }
TY - DATA
T1 - Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)
AU - Mahmoud Abbaszadeh; Iresha Atthanayake; Peter J. Thomas; Weisi Guo
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Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo. (2020). Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data). IEEE Dataport. http://dx.doi.org/10.21227/eae4-kg81
Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo, 2020. Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data). Available at: http://dx.doi.org/10.21227/eae4-kg81.
Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo. (2020). "Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)." Web.
1. Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo. Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data) [Internet]. IEEE Dataport; 2020. Available from : http://dx.doi.org/10.21227/eae4-kg81
Mahmoud Abbaszadeh, Iresha Atthanayake, Peter J. Thomas, Weisi Guo. "Molecular Signal Tracking and Detection Methods in Fluid Dynamic Channels (Method and Data)." doi: 10.21227/eae4-kg81