20.8.2 Shoeprint Analysis

Chapter Contents (Back)
Application, Shoeprint. Forensic Analysis. Shoeprints.
See also Forensic Analysis, Pathology.

Facey, O.E., Hannah, I.D., Rosen, D.,
Analysis of low-pass filtered shoeprints and pedobarograph images,
PR(25), No. 6, June 1992, pp. 647-654.
Elsevier DOI 0401
BibRef

de Chazal, P., Flynn, J., Reilly, R.B.,
Automated Processing of Shoeprint Images Based on the Fourier Transform for Use in Forensic Science,
PAMI(27), No. 3, March 2005, pp. 341-350.
IEEE Abstract. 0501
BibRef

Huynh, C., de Chazal, P., McErlean, D., Reilly, R.B., Hannigan, T.J., Fleury, L.M.,
Automatic classification of shoeprints for use in forensic science based on the Fourier transform,
ICIP03(III: 569-572).
IEEE DOI 0312
BibRef

Su, H.J.[Hong-Jiang], Crookes, D.[Danny], Bouridane, A.[Ahmed],
Thresholding of noisy shoeprint images based on pixel context,
PRL(28), No. 2, 15 January 2007, pp. 301-307.
Elsevier DOI 0611
Thresholding; Pixel context; Reference pixels; Shoeprint image BibRef

Gueham, M.[Mourad], Bouridane, A.[Ahmed], Crookes, D.[Danny],
Automatic classification of partial shoeprints using Advanced Correlation Filters for use in forensic science,
ICPR08(1-4).
IEEE DOI 0812
BibRef
And:
Automatic Recognition of Partial Shoeprints Using a Correlation Filter Classifier,
IMVIP08(37-42).
IEEE DOI 0809
BibRef
Earlier:
Automatic Recognition of Partial Shoeprints Based on Phase-Only Correlation,
ICIP07(IV: 441-444).
IEEE DOI 0709

See also Gait Recognition Based on Modified Phase-Only Correlation.
See also Gait Recognition Based on Modified Phase Only Correlation. BibRef

Su, H.J.[Hong-Jiang], Crookes, D.[Danny], Bouridane, A.[Ahmed], Gueham, M.,
Local Image Features for Shoeprint Image Retrieval,
BMVC07(xx-yy).
PDF File. 0709
BibRef

Su, H.J.[Hong-Jiang], Crookes, D.[Danny], Bouridane, A.[Ahmed],
Shoeprint Image Retrieval by Topological and Pattern Spectra,
IMVIP07(15-22).
IEEE DOI 0709
BibRef

Patil, P.M.[Pradeep M.], Kulkarni, J.V.[Jayant V.],
Rotation and intensity invariant shoeprint matching using Gabor transform with application to forensic science,
PR(42), No. 7, July 2009, pp. 1308-1317.
Elsevier DOI 0903
Forensic science; Shoeprint; Gabor feature map; Fourier transform; Power spectral density BibRef

Hasegawa, M.[Makoto], Tabbone, S.[Salvatore],
Amplitude-only log Radon transform for geometric invariant shape descriptor,
PR(47), No. 2, 2014, pp. 643-658.
Elsevier DOI 1311
BibRef
Earlier:
A Local Adaptation of the Histogram Radon Transform Descriptor: An Application to a Shoe Print Dataset,
SSSPR12(675-683).
Springer DOI 1211
Invariant shape descriptor BibRef

Kong, B.[Bailey], Supancic, III, J.[James], Ramanan, D.[Deva], Fowlkes, C.C.[Charless C.],
Cross-Domain Image Matching with Deep Feature Maps,
IJCV(127), No. 11-12, December 2019, pp. 1738-1750.
Springer DOI 1911
what type of shoe left an impression found at a crime scene. BibRef


Shafique, S.[Samia], Kong, B.[Bailey], Kong, S.[Shu], Fowlkes, C.[Charless],
Creating a Forensic Database of Shoeprints from Online Shoe-Tread Photos,
WACV23(858-868)
IEEE DOI 2302
Training, Databases, Shape, Forensics, Footwear, Benchmark testing, Algorithms: 3D computer vision, un-supervised learning BibRef

Kortylewski, A.[Adam], Vetter, T.[Thomas],
Probabilistic Compositional Active Basis Models for Robust Pattern Recognition,
BMVC16(xx-yy).
HTML Version. 1805
BibRef

Kortylewski, A.[Adam], Albrecht, T.[Thomas], Vetter, T.[Thomas],
Unsupervised Footwear Impression Analysis and Retrieval from Crime Scene Data,
RoLoD14(644-658).
Springer DOI 1504
BibRef

Wang, X.N.[Xin-Nian], Sun, H.H.[Hui-Hui], Yu, Q.[Qing], Zhang, C.[Chi],
Automatic Shoeprint Retrieval Algorithm for Real Crime Scenes,
ACCV14(I: 399-413).
Springer DOI 1504
BibRef

Dardi, F.[Francesca], Cervelli, F.[Federico], Carrato, S.[Sergio],
A Texture Based Shoe Retrieval System for Shoe Marks of Real Crime Scenes,
CIAP09(384-393).
Springer DOI 0909
BibRef
And: A2, A1, A3:
A texture recognition system of real shoe marks taken from crime scenes,
ICIP09(2905-2908).
IEEE DOI 0911
BibRef

Nibouche, O., Bouridane, A., Crookes, D., Gueham, M., Laadjel, M.,
Retrieval of shoemarks using Harris points and SIFT descriptor,
ICIP09(2897-2900).
IEEE DOI 0911
BibRef

Nibouche, O., Bouridane, A., Crookes, D., Gueham, M., Laadjel, M.,
Rotation Invariant Matching of Partial Shoeprints,
IMVIP09(94-98).
IEEE DOI 0909
BibRef

Pei, W.[Wei], Zhu, Y.Y.[Yong-Ying], Na, Y.N.[Yi-Nan], He, X.G.[Xiao-Guang],
Multiscale Gabor Wavelet for Shoeprint Image Retrieval,
CISP09(1-5).
IEEE DOI 0910
BibRef

Ramakrishnan, V.[Veshnu], Srihari, S.[Sargur],
Extraction of shoe-print patterns from impression evidence using Conditional Random Fields,
ICPR08(1-4).
IEEE DOI 0812
BibRef

Chapter on Implementations and Applications, Databases, QBIC, Video Analysis, Hardware and Software, Inspection continues in
Forensic Analysis, Pathology .


Last update:Mar 16, 2024 at 20:36:19