TY - GEN
T1 - Managing bring your own device services in campus wireless networks
AU - Kao, Yi-Chih
AU - Chang, Yung-Chia
AU - Chang, Ruay Shiung
PY - 2016/2/8
Y1 - 2016/2/8
N2 - We consider the security issues associated with bring your own device (BYOD) services on campus. More than 70% of the cyber users at the studied university access wireless campus networks through BYOD. Although wireless access is convenient for users, its network management remains a problem. We analyze existing BYOD solutions that are applicable only to particular wireless network architectures, that require users to register their devices to a management platform, or that install client software. Moreover, commercial software is often prohibitively expensive for educational institutes. We found that most users enter their usernames and passwords multiple times a day, resulting in inconvenient user authentications. Thus, we propose an EZ-Net BYOD service management system that imposes a fail-through authentication function to an existing wireless local area network mobility controller via multiple externally established authentication servers. This solution requires no client-side configuration and is not limited to any particular brand of wireless network equipment. The solution is evaluated and deployed on campus. The proposed EZ-Net BYOD system saves an average of 60 min of authentication time per month for each user and allows the studied university to save tens of thousands of US dollars on licensing fees for BYOD service management software.
AB - We consider the security issues associated with bring your own device (BYOD) services on campus. More than 70% of the cyber users at the studied university access wireless campus networks through BYOD. Although wireless access is convenient for users, its network management remains a problem. We analyze existing BYOD solutions that are applicable only to particular wireless network architectures, that require users to register their devices to a management platform, or that install client software. Moreover, commercial software is often prohibitively expensive for educational institutes. We found that most users enter their usernames and passwords multiple times a day, resulting in inconvenient user authentications. Thus, we propose an EZ-Net BYOD service management system that imposes a fail-through authentication function to an existing wireless local area network mobility controller via multiple externally established authentication servers. This solution requires no client-side configuration and is not limited to any particular brand of wireless network equipment. The solution is evaluated and deployed on campus. The proposed EZ-Net BYOD system saves an average of 60 min of authentication time per month for each user and allows the studied university to save tens of thousands of US dollars on licensing fees for BYOD service management software.
KW - bring your own device
KW - campus networks
KW - fail-through authentication
KW - security management
UR - http://www.scopus.com/inward/record.url?scp=84964342353&partnerID=8YFLogxK
U2 - 10.1109/ICSEC.2015.7401456
DO - 10.1109/ICSEC.2015.7401456
M3 - Conference contribution
AN - SCOPUS:84964342353
T3 - ICSEC 2015 - 19th International Computer Science and Engineering Conference: Hybrid Cloud Computing: A New Approach for Big Data Era
BT - ICSEC 2015 - 19th International Computer Science and Engineering Conference
PB - Institute of Electrical and Electronics Engineers Inc.
T2 - 19th International Computer Science and Engineering Conference, ICSEC 2015
Y2 - 23 November 2015 through 26 November 2015
ER -