An Enhanced WLAN Security System With FPGA Implementation for Multimedia Applications
Ref: CISTER-TR-150601 Publication Date: Dec 2017
An Enhanced WLAN Security System With FPGA Implementation for Multimedia Applications
Ref: CISTER-TR-150601 Publication Date: Dec 2017Abstract:
Maintaining a high level of data security with a low
impact on system performance is more challenging in wireless
multimedia applications. Protocols that are used for wireless local
area network (WLAN) security are known to significantly degrade
performance. In this paper, we propose an enhanced security system for a WLAN. Our new design aims to decrease the processing
delay and increase both the speed and throughput of the system,
thereby making it more efficient for multimedia applications. Our
design is based on the idea of offloading computationally intensive
encryption and authentication services to the end systems’ CPUs.
The security operations are performed by the hosts’ central processor (which is usually a powerful processor) before delivering
the data to a wireless card (which usually has a low-performance
processor). By adopting this design, we show that both the delay
and the jitter are significantly reduced. At the access point, we
improve the performance of network processing hardware for
real-time cryptographic processing by using a specialized processor implemented with field-programmable gate array technology.
Furthermore, we use enhanced techniques to implement the
Counter (CTR) Mode with Cipher Block Chaining Message Authentication Code Protocol (CCMP) and the CTR protocol. Our
experiments show that it requires timing in the range of 20–40 μs
to perform data encryption and authentication on different
end-host CPUs (e.g., Intel Core i5, i7, and AMD 6-Core) as compared with 10–50 ms when performed using the wireless card.
Furthermore, when compared with the standard WiFi protected
access II (WPA2), results show that our proposed security system
improved the speed to up to 3.7 times.
Document:
Published in IEEE Systems Journal, IEEE, Volume 11, Issue 4, pp 2536-2545.
DOI:10.1109/JSYST.2015.2424702.
ISSN: 1932-8184.
Record Date: 5, Jun, 2015