Wee How Khoh scite author profile

Mobile devices, particularly the touch screen mobile devices, are increasingly used to store and access private and sensitive data or services, and this has led to an increased demand for more secure and usable security services, one of which is user authentication. Currently, mobile device authentication services mainly use a knowledge-based method, e.g. a PIN-based authentication method, and, in some cases, a fingerprint-based authentication method is also supported. The knowledgebased method is vulnerable to impersonation attacks, while the fingerprint-based method can be unreliable sometimes. To overcome these limitations and to make the authentication service more secure and reliable for touch screen mobile device users, we have investigated the use of touch dynamics biometrics as a mobile device authentication solution by designing, implementing and evaluating a touch dynamics authentication method. This paper describes the design, implementation, and evaluation of this method, the acquisition of raw touch dynamics data, the use of the raw data to obtain touch dynamics features, and the training of the features to build an authentication model for user identity verification. The evaluation results show that by integrating the touch dynamics authentication method into the PIN-based authentication method, the protection levels against impersonation attacks is greatly enhanced. For example, if a PIN is compromised, the success rate of an impersonation attempt is drastically reduced from 100% (if only a 4-digit PIN is used) to 9.9% (if both the PIN and the touch dynamics are used).

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In-air hand gesture signature recognition system based on 3-dimensional imagery

Khoh

Pang

Teoh

2018

Multimed Tools Appl

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Dynamic Handwritten Signature Verification Based on Statistical Quantization Mechanism

Ong

Khoh

Teoh

2009

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Incorporating Multimedia as a Tool into Mathematics Education: A Case Study on Diploma Students in Multimedia University

Ahmad

Yin

Loh

et al. 2010

Procedia - Social and Behavioral Sciences

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Overview of Acquisition Protocol in EEG Based Recognition System

Yap

Choo

Khoh

2017

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Score level fusion approach in dynamic signature verification based on hybrid wavelet-Fourier transform

Khoh

Ong

Pang

et al. 2013

Security Comm. Networks

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In this work, a dynamic handwritten signature verification system based on hybrid discrete wavelet transform and discrete Fourier transform is presented. Wavelet transform is adopted to analyze the signature information in a multi‐resolution representation while retaining its local information by decomposing the signature into different sub‐bands. Fourier transform is performed to extract the feature descriptor of the decomposed sub‐bands. A dissimilarity score of the extracted features between the test signature and reference data is computed using Euclidean distance and enveloped Euclidean distance. Apart from that, several score level fusion mechanisms have been investigated to combine decisive information to boost up the system performance. The k‐nearest neighbor and support vector machine are applied in order to fuse multiple features. The resulting score value is then normalized and compared with a threshold value in order to decide whether a given signature is genuine or forgery. Experiments are conducted on a released version of benchmark SVC2004 database. Two datasets (Task 1 and Task 2), which have different types of signature information, are used to evaluate the proposed system, and promising verification results are achieved. Copyright © 2013 John Wiley & Sons, Ltd.

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Person authentication based on eye-closed and visual stimulation using EEG signals

et al. 2021

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The study of Electroencephalogram (EEG)-based biometric has gained the attention of researchers due to the neurons’ unique electrical activity representation of an individual. However, the practical application of EEG-based biometrics is not currently widespread and there are some challenges to its implementation. Nowadays, the evaluation of a biometric system is user driven. Usability is one of the concerning issues that determine the success of the system. The basic elements of the usability of a biometric system are effectiveness, efficiency and user satisfaction. Apart from the mandatory consideration of the biometric system’s performance, users also need an easy-to-use and easy-to-learn authentication system. Thus, to satisfy these user requirements, this paper proposes a reasonable acquisition period and employs a consumer-grade EEG device to authenticate an individual to identify the performances of two acquisition protocols: eyes-closed (EC) and visual stimulation. A self-collected database of eight subjects was utilized in the analysis. The recording process was divided into two sessions, which were the morning and afternoon sessions. In each session, the subject was requested to perform two different tasks: EC and visual stimulation. The pairwise correlation of the preprocessed EEG signals of each electrode channel was determined and a feature vector was formed. Support vector machine (SVM) was then used for classification purposes. In the performance analysis, promising results were obtained, where EC protocol achieved an accuracy performance of 83.70–96.42% while visual stimulation protocol attained an accuracy performance of 87.64–99.06%. These results have demonstrated the feasibility and reliability of our acquisition protocols with consumer-grade EEG devices.

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In-air hand gesture signature using transfer learning and its forgery attack

Khoh

Pang

Teoh

et al. 2021

Applied Soft Computing

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Wee How Khoh

Strengthen user authentication on mobile devices by using user’s touch dynamics pattern

In-air hand gesture signature recognition system based on 3-dimensional imagery

Dynamic Handwritten Signature Verification Based on Statistical Quantization Mechanism

Incorporating Multimedia as a Tool into Mathematics Education: A Case Study on Diploma Students in Multimedia University

Overview of Acquisition Protocol in EEG Based Recognition System

Score level fusion approach in dynamic signature verification based on hybrid wavelet-Fourier transform

Person authentication based on eye-closed and visual stimulation using EEG signals

In-air hand gesture signature using transfer learning and its forgery attack

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