An Unsupervised Approach for Gait-based Authentication

被引:0
作者
Cola, Guglielmo [1 ]
Avvenuti, Marco [1 ]
Vecchio, Alessio [1 ]
Yang, Guang-Zhong [2 ]
Lo, Benny [2 ]
机构
[1] Univ Pisa, Dip Ingn Informaz, Pisa, Italy
[2] Imperial Coll London, Hamlyn Ctr, London, England
来源
2015 IEEE 12TH INTERNATIONAL CONFERENCE ON WEARABLE AND IMPLANTABLE BODY SENSOR NETWORKS (BSN) | 2015年
关键词
Gait Analysis; Gait-Based Authentication; Anomaly Detection; Wearable sensors; PERFORMANCE; SYSTEM;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
Similar to fingerprint and iris pattern, everyone's gait is unique, and gait has been proposed as a biometric feature for security applications. This paper presents a lightweight accelerometer-based technique for user authentication on smart wearable devices. Designed as an unsupervised classification approach, the proposed authentication technique can learn the user's gait pattern automatically when the user first starts wearing the device. Anomaly detection is then used to verify the device owner. The technique has been evaluated both in controlled and uncontrolled environments, with 20 and 6 healthy volunteers respectively. The Equal Error Rate ( EER) in the controlled environments ranged from 5.7% ( waist-mounted sensor) to 8.0% ( trouser pocket). In the uncontrolled experiment, the device was put in the subject's trouser pocket, and the results were similar to the respective supervised experiment ( EER=9.7%).
引用
收藏
页数:6
相关论文
共 50 条
[31]   Fast Frontal View Gait Authentication Based on the Statistical Registration and Human Gait Modeling [J].
Okusa, Kosuke ;
Kamakura, Toshinari .
WORLD CONGRESS ON ENGINEERING - WCE 2013, VOL I, 2013, :274-279
[32]   Real-Time Gait-Based Age Estimation and Gender Classification from a Single Image [J].
Xu, Chi ;
Makihara, Yasushi ;
Liao, Ruochen ;
Niitsuma, Hirotaka ;
Li, Xiang ;
Yagi, Yasushi ;
Lu, Jianfeng .
2021 IEEE WINTER CONFERENCE ON APPLICATIONS OF COMPUTER VISION WACV 2021, 2021, :3459-3469
[33]   Gait Related Activity Based Person Authentication with Smartphone Sensors [J].
Chakraborty, Basabi .
2018 12TH INTERNATIONAL CONFERENCE ON SENSING TECHNOLOGY (ICST), 2018, :208-212
[34]   Gait-based human age estimation using age group-dependent manifold learning and regression [J].
Li, Xiang ;
Makihara, Yasushi ;
Xu, Chi ;
Yagi, Yasushi ;
Ren, Mingwu .
MULTIMEDIA TOOLS AND APPLICATIONS, 2018, 77 (21) :28333-28354
[35]   WEARABLE DIGITAL GAIT-BASED OUTCOME MEASURES FOR CHILDREN WITH FRAGILE X, PRADER-WILLI AND ANGELMAN SYNDROMES [J].
Kraan, C. M. ;
Date, P. ;
Date, E. K. ;
Rattray, A. ;
Sangeux, M. ;
Amor, D. J. ;
Godler, D. E. .
JOURNAL OF INTELLECTUAL DISABILITY RESEARCH, 2021, 65 (09) :806-806
[36]   Treadmill Assisted Gait Spoofing (TAGS): An Emerging Threat to Wearable Sensor-based Gait Authentication [J].
Kumar, Rajesh ;
Isik, Can ;
Phoha, Vir V. .
DIGITAL THREATS: RESEARCH AND PRACTICE, 2021, 2 (03)
[37]   A continuous smartphone authentication method based on gait patterns and keystroke dynamics [J].
Lamiche, Imane ;
Bin, Guo ;
Jing, Yao ;
Yu, Zhiwen ;
Hadid, Abdenour .
JOURNAL OF AMBIENT INTELLIGENCE AND HUMANIZED COMPUTING, 2019, 10 (11) :4417-4430
[38]   A continuous smartphone authentication method based on gait patterns and keystroke dynamics [J].
Imane Lamiche ;
Guo Bin ;
Yao Jing ;
Zhiwen Yu ;
Abdenour Hadid .
Journal of Ambient Intelligence and Humanized Computing, 2019, 10 :4417-4430
[39]   Smartwatch-based Gait Authentication Using Siamese LSTM Networks [J].
Randombage, Rumeth ;
Jayawardene, Nuwan .
2024 9TH INTERNATIONAL CONFERENCE ON INFORMATION TECHNOLOGY RESEARCH, ICITR, 2024,
[40]   Development of machine learning models for gait-based classification of incomplete spinal cord injuries and cauda equina syndrome [J].
Park, Seul Gi ;
Mun, Sae Byeol ;
Kim, Young Jae ;
Kim, Kwang Gi .
SCIENTIFIC REPORTS, 2025, 15 (01)
12345