Data for: Performance analysis of single-frequency near electrical resonance signal enhancement (SF-NERSE) defect detection}

Published: 24 November 2018| Version 1 | DOI: 10.17632/8srgxftw87.1
Contributors:
Robert Hughes,
Steve Dixon

Description

************************************************************************************************************* This folder contains 1 .xlsx file and 3 subfolders for the data used to carry out the probablity of detection (PoD) study in the following published paper: Performance analysis of single-frequency near electrical resonance signal enhancement (SF-NERSE) defect detection Robert R. Hughes and Steve Dixon Accepted ## Oct 2018 for publication in NDT&E International ------------------------------------------------------------------------------------------------------------- TYPE OF DATA: 2D eddy-current scan data (@ single frequency) DATES OF ACQUISITION: 21st May 2015 - 7th July 2015 DATA ACQUIRED BY: Robert R. Hughes CONTACT PERSON: Dr Robert R. Hughes, University of Bristol, e-mail: robert.hughes@bristol.ac.uk JOURNAL PUBLISHING THE DATA: NDT&E International TOTAL NUMBER OF FOLDERS: 03 TOTAL NUMBER OF FILES: 1 (.xlsx) and 03 x 36 (.mat) ------------------------------------------------------------------------------------------------------------- DESCRIPTION OF THE DATA ACQUISITION: The complex scan data was acquired using a 1.14mm outer diameter, ferrite cored and sheilded solenoid coil of 35 turns manufactured in-house. The data was aquired via in-house Labview software, and the data processed via Python and Matlab. Each folder contains 36 .mat (Matlab) format files holding the complex data matrix for each scan. The following additional information may be useful for interpreting the data: scan pitch: x = 0.25 mm, y = 0.25 mm Frequency: 3.25 MHz and 4 MHz This folder also contains an .xlsx spreadsheet summarising the peak defect signals, maximum background signal and rms background level. -------------------------------------------------------------------------------------------------------------

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