Compression Based Face Recognition Using DWT and SVM

Sujatha, B.; Madiwalar, Chetan Tippanna; K, Suresh Babu; Raja, K B; Venugopal, K R

doi:10.5121/sipij.2016.7304

Cited by 1 publication

(2 citation statements)

References 11 publications

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“…These parameter values of DTCWT, QFT and fusion of these mechanisms are recorded in Table 1 , with various combinations of HID and HOD values. The Table 2 gives the results recorded towards performance comparison of proposed fusion techniques with the existing mechanisms presented by researchers in (29) , (30) , (31) and (32) . The percentage values of optimum TSR are higher and percentage https://www.indjst.org/ of Equal Error Rate values are less in proposed technique when compared with available techniques.…”

Section: Resultsmentioning

confidence: 99%

“…The graphical analysis given in Figures 10 and shows that the proposed technique's performance is better placed. (31) LPCC+MFCC (32) SVM (33) HMM (34) RNN (35) The Table 3 records the values of performance parameters calculated for proposed MFCC+RASTA techniques and comparative values of existing techniques. The graphical illustration of comparing proposed technique with existing techniques demonstrated in Figure 12, gives the better place for proposed techniques in terms of accuracy and precision values.…”

Section: Resultsmentioning

confidence: 99%

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System for Fusion of Face and Speech Modalities Using DTCWT+QFT and MFCC+RASTA Techniques

Shanthakumar¹,

Nagaraja²,

Basthikodi³

2021

IJST

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Objectives:The main objective is to propose a multimodal biometric system by forming a fusion of Face and Speech modalities using DTCWT+QFT techniques for face and MFCC+RASTA Techniques for Speech recognitions. The experimental results are compared with existing works and analysed the performance with counterparts. Methods: The proposed model, make use of DTCWT and QFT techniques to extract the features of face images and perform fusion of both. The MFCC and RASTA techniques are implemented to extract features of speech data and then fusion is applied. Various databases discussed and utilized for both face and speech recognition system proposed. Findings: The results of experimentation are compared with existing systems and analysis proved than the proposed system is placed in better position. The fusion of DTCWT and QFT techniques for face recognition system is implemented and the results using performance parameters such as False Acceptation Ratio (FAR), False Rejection Ratio (FRR), Total Success Rate (TSR), Partial Error Rate (PER), Equal Error Rate (EER) are tabulated for six different types of face data sets. The average performance of the results is compared with four existing fusion techniques and showed that the proposed system performs better. The fusion of MFCC and RASTA techniques for speech recognition system is implemented and the performance is measured by calculating accuracy, precision, recall and F1-score. These results are compared with five different schemes and proved that proposed system of fusion of face and speech traits works better for human recognitions. Novelty: Fusion of two algorithms for face recognition is implemented and the results analysed. Then the fusion of two algorithms for speech recognition is implemented and the results are analysed. The novel approach is presented to combine both face and speech recognition system in to single system to improve the security using multimodal biometrics.

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Section: Resultsmentioning

confidence: 99%