Matching Larger Image Areas for Unconstrained Face Identification

Gaston, Jack; Ji, Ming; Crookes, Danny

doi:10.1109/tcyb.2018.2846579

Cited by 10 publications

(2 citation statements)

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“…The results show that the new approach is able to significantly improve over existing patch-based face identification approaches, in the presence of uncontrolled pose, expression, and lighting variations, using small training datasets. It is also shown that the new block-based scheme can be combined with existing approaches to further improve performance [6].…”

Section: IImentioning

confidence: 99%

Review on Block Based Approach for Unconstrained Face Identification

Chauhan¹

2019

IJRASET

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Many approaches to unconstrained face identification exploit small patches which are unaffected by distortions outside their locality. A larger area usually contains more discriminative information, but may be unidentifiable due to local appearance changes across its area, given limited training data. We propose a novel block-based approach, as a complement to existing patch-based approaches, to exploit the greater discriminative information in larger areas, while maintaining robustness to limited training data. A testing block contains several neighboring patches, each of a small size. We identify the matching training block by jointly estimating all of the matching patches, as a means of reducing the uncertainty of each small matching patch with the addition of the neighboring patch information, without assuming additional training data.We further propose a multi-scale extension in which we carry out block-based matching at several block sizes, to combine complementary information across scales for further robustness. We have conducted face identification experiments using three datasets, the constrained Georgia Tech dataset to validate the new approach, and two unconstrained datasets, LFW and UFI, to evaluate its potential for improving robustness. The results show that the new approach is able to significantly improve over existing patch-based face identification approaches, in the presence of uncontrolled pose, expression, and lighting variations, using small training datasets. It is also shown that the new block-based scheme can be combined with existing approaches to further improve performance.

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Section: IImentioning

confidence: 99%

Review on Block Based Approach for Unconstrained Face Identification

Chauhan¹

2019

IJRASET

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“…Several face recognition approaches deal with controlled face recognition [2][3][4][5][6][7][8], but only a few approaches address the face recognition under uncontrolled conditions include partial occlusion, pose changes, illumination changes, and expression changes [9][10][11]. Uncontrollable face recognition is a difficult and challenging task.…”

Section: Introductionmentioning

confidence: 99%

Role of Distance Measures in Approximate String Matching Algorithms for Face Recognition System

Krishnaveni

Sridhar

2020

IFIP Advances in Information and Communication Technology

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This paper is based on the recognition of faces using string matching.The approximate string matching is a method for finding an approximate match of a pattern within a string. Exact matching is impracticable for a larger amount of data as it involves more time. Those issues can be solved by finding anapproximate match rather than an exact match. This paper aims to experiment with the performance of approximation string matching approaches usingvarious distance measures such as Edit distance, Longest Common Subsequence (LCSS), Hamming distance, Jaro distance, and Jaro-Winkler distance. The algorithms generate a near-optimal solution to face recognition system with reduced computational complexity. This paper deals with the conversion of face images into strings, matching those image strings by using the approximation string matching algorithm that determines the distance and classifies a face image based on the minimum distance. Experiments have been performed with FEI and ORL face databases for the evaluation of approximation string matching algorithms and the results demonstrate theutility of distance measures for the face recognition system.

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