TY - JOUR
T1 - I Walk, Therefore i Am
T2 - Continuous User Authentication with Plantar Biometrics
AU - Yeh, Kuo Hui
AU - Su, Chunhua
AU - Chiu, Wayne
AU - Zhou, Lu
N1 - Publisher Copyright:
© 1979-2012 IEEE.
PY - 2018/2
Y1 - 2018/2
N2 - The comprehensive evolution of information communication technologies on mobile sensing objects has led to the provision of versatile ubiquitous network services embedded with specific-purpose modern sensors and intelligent wearable devices. The universal Internet connectivity of such smart objects has brought about a new era of ubiquitous application development for the Internet of Things. Meanwhile, security has become critically important. In the past decade, academia and industry have dedicated great efforts to the design of continuous authentication for multi-modal networks. Multiform authentication bio-Tokens have been introduced for continuous entity identification and verification. With the rapid growth and universality of wearable devices, in this article we target continuous authentication for the IoT-based environment with users possessing wearable healthcare (and wellness) related smart objects. To present the state of the art, we provide a comprehensive review of continuous authentication in recent years. Critical characteristics of new biometrics are then introduced. Second, we present a wearable plantar bio-feature extractor constructed via commercial pressure sensors and the Raspberry PI platform. The prototype is adopted to retrieve user plantar bio-data as the raw (and training) data in the proposed authentication system. Third, we apply machinelearning-based techniques to derive a user's plantar bio-features as authentication tokens in the system to support continual (and real-Time) entity verification in the background without the user's notice.
AB - The comprehensive evolution of information communication technologies on mobile sensing objects has led to the provision of versatile ubiquitous network services embedded with specific-purpose modern sensors and intelligent wearable devices. The universal Internet connectivity of such smart objects has brought about a new era of ubiquitous application development for the Internet of Things. Meanwhile, security has become critically important. In the past decade, academia and industry have dedicated great efforts to the design of continuous authentication for multi-modal networks. Multiform authentication bio-Tokens have been introduced for continuous entity identification and verification. With the rapid growth and universality of wearable devices, in this article we target continuous authentication for the IoT-based environment with users possessing wearable healthcare (and wellness) related smart objects. To present the state of the art, we provide a comprehensive review of continuous authentication in recent years. Critical characteristics of new biometrics are then introduced. Second, we present a wearable plantar bio-feature extractor constructed via commercial pressure sensors and the Raspberry PI platform. The prototype is adopted to retrieve user plantar bio-data as the raw (and training) data in the proposed authentication system. Third, we apply machinelearning-based techniques to derive a user's plantar bio-features as authentication tokens in the system to support continual (and real-Time) entity verification in the background without the user's notice.
UR - http://www.scopus.com/inward/record.url?scp=85042177428&partnerID=8YFLogxK
U2 - 10.1109/MCOM.2018.1700339
DO - 10.1109/MCOM.2018.1700339
M3 - Article
AN - SCOPUS:85042177428
SN - 0163-6804
VL - 56
SP - 150
EP - 157
JO - IEEE Communications Magazine
JF - IEEE Communications Magazine
IS - 2
ER -