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Performance Evaluation of WiMAX- Wi-Fi Video Surveillance System

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Presentation on theme: "Performance Evaluation of WiMAX- Wi-Fi Video Surveillance System"— Presentation transcript:

1 Performance Evaluation of WiMAX- Wi-Fi Video Surveillance System
S.C. Lubobya M. E. Dlodlo G. de Jagar A. Zulu 2017/04/24 Global Summit and Expo on Multimedia & Application,UK

2 Global Summit and Expo on Multimedia & Application
Outline Introduction WiMAX-Wi-Fi Video Surveillance Design Network Bandwidth and Storage Space QoS Requirement Network Architectures Related Work Performance Evaluation Methodology Results and Discussion Conclusion 2017/04/24 Global Summit and Expo on Multimedia & Application

3 Global Summit and Expo on Multimedia & Application
Introduction Traditional surveillance system are mainly wired. Wired systems suffer vandalism, affected by rock environment, can not be installed easily in old buildings. However, wireless solution should be seen to be complementing the wired systems[1]. 2017/04/24 Global Summit and Expo on Multimedia & Application

4 WiMAX-WiFi IP Video Surveillance Design
2017/04/24 Fig.1: WiMAX- Wi-Fi IP Video Surveillance Design Global Summit and Expo on Multimedia & Application

5 Network bandwidth and storage space
In general the network bandwidth ( ) is given by : Where: MSDU size in Kilobytes is, FR is the frame rate and N is the number of IP cameras. The constant 8 is included since there are eight bits per byte. 2017/04/24 Global Summit and Expo on Multimedia & Application

6 Network bandwidth and Storage Space Cont’
The server storage space ( ) can be calculated : is in Gb 2017/04/24 Global Summit and Expo on Multimedia & Application

7 Table 1: Qos Requirements for IP Video Surveillance
Qos parameter Definition Acceptable Range Throughput amount of video data that can be transferred to the preferred destination (video server) per unit time (usually bits/second. Depends on load in bits per second load total bits per second offered to the wireless network [2] Depends on number of cameras Packet loss number of video packets not reaching the preferred destination [2]. Less than 1% [3] End to end delay time difference between video data departure and arrival [4] ms [3,5] jitter absolute value of delay difference between selected packets [6] Less than 60ms [3] 2017/04/24 Global Summit and Expo on Multimedia & Application

8 Network Architecture: WiMAX -Wi-Fi IP Video Surveillance Model
Fig.2: WiMAX –Wi-Fi IP video surveillance model 2017/04/24 Global Summit and Expo on Multimedia & Application

9 Global Summit and Expo on Multimedia & Application
Table 2: Related work Authors Surveillance Env. MAC Protocol Max Throughput Network Topology Video Delivery Hourdakis et al [7] highway 802.16 3-30Mbps star simulcast S.Leader [8] highways 802.11a/ 20-60Mbps/ 100Mbps Star/ring unicast Neves et al [9] 802.16e Guinella et al [10] fire prevention, Ahmad et al [11,12] -- --- Lubobya et al Bus station, old buildings, shanty compound 802.16d/ 802.11g Star/mesh 2017/04/24 Global Summit and Expo on Multimedia & Application

10 Performance Evaluation Methodology
OPNET Modeler 17.5 simulation package A 1420 Byte, 30 fps compressed Video was used. Varying number of Wi-Fi cameras. Simulated the WiMAX -Wi-Fi video surveillance models. Throughput Results compared with calculated values while jitter, end to end and packet loss was compared with acceptable QoS range 2017/04/24 Global Summit and Expo on Multimedia & Application

11 Results and Discussion
Throughput is compared to the calculated network bandwidth and load. Beyond 10 cameras the packet loss increases above 1%. 2017/04/24 Global Summit and Expo on Multimedia & Application

12 Results and Discussion
Jitter ranges within the acceptable values of below 60ms up to 11 cameras. Beyond that extremely high and unacceptable jitter values have been measured 2017/04/24 Global Summit and Expo on Multimedia & Application

13 Results and Discussion
End to end delay must not exceed 200ms for video transmission. A similar trend of good results was recorded upto 11 cameras. 2017/04/24 Global Summit and Expo on Multimedia & Application

14 Global Summit and Expo on Multimedia & Application
Conclusion This work proposes and evaluates the WiMAX -Wi-Fi video surveillance models. The evaluations is performed in terms of throughput, end to end delay, packet loss and jitter. For the simulated scenarios a CPE can effectively connect to 11 cameras beyond which throughput, jitter, packet loss and end to end delay becomes bad 2017/04/24 Global Summit and Expo on Multimedia & Application

15 Global Summit and Expo on Multimedia & Application
References [1] A. C. Caputo, Digital Video Surveillance and Security, Second. butterworth-Heinemann, 2014. [2] Mohamed M. Abo Ghazala, Mohamed F. Zaghlou, Mohamed Zahra, “Performance evaluation of multimedia streams over wireless computer networks”, International Journal Of Advanced Science And Technology, vol. 13, pp 61-73, 2009. [3] Y. Chen, T. Farley, and N. Ye, “QoS Requirements of Network Applications on the Internet,” Information-Knowledge- Systems Management, vol. 4, pp. 55–76, 2004. [4] Sanjeev Dhawan,“Analogy of promising wireless technologies on different frequencies: Bluetooth, WiFi, and WiMAX”, in IEEE proceedings of Second International Conference on Wireless Broadband and Ultra Wideband Communications, August, Sydney, NSW. [5] P. E. and P. C. E. Farrukh, “Performance Evaluation of secure video transmission over WiMAX,” vol. 3, no. 6, pp. 131–144, 2011. [6] Jamil M. Hamodi and Ravindra C. Thool, “Investigate the performance evaluation of IPTV over WiMAX networks” International Journal of Computer Networks & Communications (IJCNC) Vol.5, No.1, January 2013. [7] J. Hourdakis, T. Morris, P. Michalopoulos, and K. Wood, “Advanced Portable Wireless Measurement and Observation Station National Technical Information Services ,” 2005. [8] S. Leader, “Telecommunications Handbook for Transportation Professionals - The Basics of Telecommunications,” p. 287, 2004. [9] P. Neves, P. Simões, Á. Gomes, L. Mário, S. Sargento, E. Monteiro, and T. Bohnert, “WiMAX for Emergency Services : An Empirical Evaluation,” no. Ngmast, 2007. [10] E. Guainella, E. Borcoci, M. Katz, P. Neves, F. Andreotti, and E. Angori, “WiMAX technology support for applications in environmental monitoring , fire prevention and telemedicine,” no. I, pp. 125–131, 2007. [11] I. Ahmad and D. Habibi, “High Utility Video Surveillance System on Public Transport using WiMAX Technology,” 2010. [12] I. Ahmad and D. Habibi, “A novel mobile WiMAX solution for higher throughput,” Proc th Int. Conf. Networks, ICON 2008, no. October 2005, pp. 1–5, 2008. 2017/04/24 Global Summit and Expo on Multimedia & Application

16 Questions, comments, suggestions
Thanks Questions, comments, suggestions 2017/04/24 Global Summit and Expo on Multimedia & Application

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