Evaluating the Performance of VoIP Over Different Wireless Environment

Evaluating the Performance of VoIP Over Different Wireless Environment

WiFi and WiMAX are the most technologies for broadband wireless access are used nowadays. The excessive demand for providing mobile users with broadband wireless access has attracted tremendous investment from the telecommunications industry in the development and deployment of WiMAX and WiFi networ...

وصف كامل

محفوظ في:
التفاصيل البيبلوغرافية
المؤلف الرئيسي: Dhiab, Sarmad Kadhim
التنسيق: أطروحة
اللغة:eng
eng
منشور في: 2012
الموضوعات:
TK5101-6720 Telecommunication
الوصول للمادة أونلاين:https://etd.uum.edu.my/2942/1/Sarmad_Kadhim_Dhiab.pdf
https://etd.uum.edu.my/2942/4/Sarmad_Kadhim_Dhiab.pdf
الوسوم: إضافة وسم
لا توجد وسوم, كن أول من يضع وسما على هذه التسجيلة!
id my-uum-etd.2942
record_format uketd_dc
institution Universiti Utara Malaysia
collection UUM ETD
language eng
eng
advisor Mahmuddin, Massudi
topic TK5101-6720 Telecommunication
spellingShingle TK5101-6720 Telecommunication
Dhiab, Sarmad Kadhim
Evaluating the Performance of VoIP Over Different Wireless Environment
description WiFi and WiMAX are the most technologies for broadband wireless access are used nowadays. The excessive demand for providing mobile users with broadband wireless access has attracted tremendous investment from the telecommunications industry in the development and deployment of WiMAX and WiFi networks. Voice over IP (VoIP) over these technologies will be one of the killer applications for rapid deployment of WiMAX and WiFi networks. The legal desire for bundling voice and data will increase the portion of voice traffic in these networks. Therefore, VoIP, as the current technology for making voice calls through packet switch networks, will be a key application in WiMAX and WiFi networks. The increase of Voice over IP (VoIP) applications such as Skype, Google Talk, and MSN Messenger along with emerging deployment of WiMAX networks is making VoIP over WiMAX an attractive market and a driving force for both carriers and equipment suppliers in capturing and spurring the next wave of telecommunications innovation, though challenges remain. However, the enhancement on the hardware and application sides only seems inadequate. The chosen of proper network environment is also crucial in order to deliver the voice communication and multimedia session over the Internet. Optimization of the VoIP call capacity over WiMAX and WiFi networks is one such crucial challenge and remains an open research issue. Hence, in this project, we present the performance evaluation of VoIP in two wireless network protocols, WiMAX and WiFi as a baseline to evaluate the VoIP performance.
format Thesis
qualification_name masters
qualification_level Master's degree
author Dhiab, Sarmad Kadhim
author_facet Dhiab, Sarmad Kadhim
author_sort Dhiab, Sarmad Kadhim
title Evaluating the Performance of VoIP Over Different Wireless Environment
title_short Evaluating the Performance of VoIP Over Different Wireless Environment
title_full Evaluating the Performance of VoIP Over Different Wireless Environment
title_fullStr Evaluating the Performance of VoIP Over Different Wireless Environment
title_full_unstemmed Evaluating the Performance of VoIP Over Different Wireless Environment
title_sort evaluating the performance of voip over different wireless environment
granting_institution Universiti Utara Malaysia
granting_department Awang Had Salleh Graduate School of Arts & Sciences
publishDate 2012
url https://etd.uum.edu.my/2942/1/Sarmad_Kadhim_Dhiab.pdf
https://etd.uum.edu.my/2942/4/Sarmad_Kadhim_Dhiab.pdf
_version_ 1747827466579214336
spelling my-uum-etd.29422016-04-27T00:58:38Z Evaluating the Performance of VoIP Over Different Wireless Environment 2012 Dhiab, Sarmad Kadhim Mahmuddin, Massudi Awang Had Salleh Graduate School of Arts & Sciences Awang Had Salleh Graduate School of Arts and Sciences TK5101-6720 Telecommunication WiFi and WiMAX are the most technologies for broadband wireless access are used nowadays. The excessive demand for providing mobile users with broadband wireless access has attracted tremendous investment from the telecommunications industry in the development and deployment of WiMAX and WiFi networks. Voice over IP (VoIP) over these technologies will be one of the killer applications for rapid deployment of WiMAX and WiFi networks. The legal desire for bundling voice and data will increase the portion of voice traffic in these networks. Therefore, VoIP, as the current technology for making voice calls through packet switch networks, will be a key application in WiMAX and WiFi networks. The increase of Voice over IP (VoIP) applications such as Skype, Google Talk, and MSN Messenger along with emerging deployment of WiMAX networks is making VoIP over WiMAX an attractive market and a driving force for both carriers and equipment suppliers in capturing and spurring the next wave of telecommunications innovation, though challenges remain. However, the enhancement on the hardware and application sides only seems inadequate. The chosen of proper network environment is also crucial in order to deliver the voice communication and multimedia session over the Internet. Optimization of the VoIP call capacity over WiMAX and WiFi networks is one such crucial challenge and remains an open research issue. Hence, in this project, we present the performance evaluation of VoIP in two wireless network protocols, WiMAX and WiFi as a baseline to evaluate the VoIP performance. 2012 Thesis https://etd.uum.edu.my/2942/ https://etd.uum.edu.my/2942/1/Sarmad_Kadhim_Dhiab.pdf text eng validuser https://etd.uum.edu.my/2942/4/Sarmad_Kadhim_Dhiab.pdf text eng public masters masters Universiti Utara Malaysia Dao, N. T., Malaney, R. A., Exposito, E., & Xun, W. (2005, 2-2 Dec. 2005). Differential VoIP service in Wi-Fi networks and priority QoS maps. Paper presented at the Global Telecommunications Conference, 2005. GLOBECOM '05. IEEE. Dongmei, Z., & Xuemin, S. (2007). Performance of packet voice transmission using IEEE 802.16 protocol. Wireless Communications, IEEE, 14(1), 44-51. Eng Hwee, O., & Khan, J. Y. (2008, 19-21 Nov. 2008). QoS provisioning for VoIP over wireless local area networks. Paper presented at the Communication Systems, 2008. ICCS 2008. 11th IEEE Singapore International Conference on. Garg, S., & Kappes, M. (2003, 1-5 Dec. 2003). Admission control for VoIP traffic in IEEE 802.11 networks. Paper presented at the Global Telecommunications Conference, 2003. GLOBECOM '03. IEEE. Haghani, E., De, S., & Ansari, N. (2007, 26-30 Nov. 2007). On Modeling VoIP Traffic in Broadband Networks. Paper presented at the Global Telecommunications Conference, 2007. GLOBECOM '07. IEEE. Haseeb, A., & Tralli, V. (13-16 Feb. 2011). QoS performance analysis for VoIP traffic in heterogeneous networks with WiMAX access. Paper presented at the Advanced Communication Technology (ICACT), 2011 13th International Conference on. Jijun, L., Dillinger, M., & Schulz, E. (2002, 29 June-1 July 2002). Investigations of scheduling strategy for low data rate real time IP based service in wireless LAN. Paper presented at the Communications, Circuits and Systems and West Sino Expositions, IEEE 2002 International Conference on. Kalama, M., Acar, G., Evans, B. G., & Mourgues, S. (2008, 11-14 May 2008). VoIP over DVB-RCS Satellite Systems: A Novel Capacity Request Mechanism for Improved Voice Activity Detection. Paper presented at the Vehicular Technology Conference, 2008. VTC Spring 2008. IEEE. Kitroser, I., Chai, E., Ben-Shimol, Y., & Yarkoni, N. (2008, 8-11 Sept. 2008). Efficient mapping of VoIP traffic in wireless OFDMA systems using semi-fixed allocations. Paper presented at the Broadband Communications, Networks and Systems, 2008. BROADNETS 2008. 5th International Conference on. Kostas, P., Esa, P., Jarno, P., Frerk, F., Tuomas, N., & Ilkka, H. (2008). Empirical evaluation of VoIP aggregation over a fixed WiMAX testbed. Paper presented at the Proceedings of the 4th International Conference on Testbeds and research infrastructures for the development of networks \& communities. Kwan-Wu, C. (20-23 April 2010). On the Impact of Wi-Fi Multmedia Power Save Mode on the VoIP Capacity of WLANs. Paper presented at the Advanced Information Networking and Applications Workshops (WAINA), 2010 IEEE 24th International Conference on. Mondal, A., Cheng, H., Jin, L., Jain, M., & Kuzmanovic, A. (23-27 May 2010). A Case for WiFi Relay: Improving VoIP Quality for WiFi Users. Paper presented at the Communications (ICC), 2010 IEEE International Conference on. Patankar, P., Gunwoo, N., Kesidis, G., & Das, C. R. (2008, 17-20 June 2008). Exploring Anti-Spam Models in Large Scale VoIP Systems. Paper presented at the Distributed Computing Systems, 2008. ICDCS '08. The 28th International Conference on. Quang Duc, B., & Jennings, A. (2009, 7-9 June 2009). Relay node selection in large-scale VoIP overlay networks. Paper presented at the Ubiquitous and Future Networks, 2009. ICUFN 2009. First International Conference on. Scalabrino, N., De Pellegrini, F., Riggio, R., Maestrini, A., Costa, C., & Chlamtac, I. (2007, 21-23 May 2007). Measuring the Quality of VoIP Traffic on a WiMAX Testbed. Paper presented at the Testbeds and Research Infrastructure for the Development of Networks and Communities, 2007. TridentCom 2007. 3rd International Conference on. Yan, Z., Honglin, H., & Hsiao-Hwa, C. (2008). QoS differentiation for IEEE 802.16 WiMAX mesh networking. Mob. Netw. Appl., 13(1-2), 19-37. Yamada, H., & Higuchi, N. (2001). Voice quality evaluation of IP-based voice stream multiplexing schemes. Local Computer Networks, 2001. Proceedings. LCN 2001. 26th Annual IEEE Conference on , vol., no., pp.356-364. Abu-Alhaj, M., Kolhar, M. S., Halaiyqah, M., Abouabdalla, O., & Sureswaran, R. (7-9 March 2009). MuxComp - A New Architecture to Improve VoIP Bandwidth Utilization., International Conference on Future Networks , vol., no., pp.212-215. Mahbub, H., Raj, J. (2004). High Performance TCP/IP Networking: Concept, Issues and Solution. Pearson Prentice Hall. Issariyakul, T., Hossain, E. (2009). Introduction to Network Simulator NS2, US:Springer. Riaz, A., & Chan, H. A. (2-6 Nov. 2003). Wireless VoIP phone architecture and hardware requirements. Industrial Electronics Society, IECON '03. The 29th Annual Conference of the IEEE , vol.3, no., pp. 2699- 2704. Freitag, J.; da Fonseca, N.L.S. (2007). WiMAX Module for the ns-2 Simulator. Personal, Indoor and Mobile Radio Communications, 2007. PIMRC 2007. IEEE 18th International Symposium on , vol., no., pp.1-6, 3-7. Chung-Hsin, L., & You-Sheng, L. (16-18 Aug. 2010). The study of Botnet attack on VoIP. Sixth International Conference on Networked Computing and Advanced Information Management (NCM) , vol., no., pp.636-640. Jianfeng, C., Wenhua, J., & Hongxi, W. (16-20 May 2005). A service flow management strategy for IEEE 802.16 broadband wireless access systems in TDD mode. In Proceedings of the IEEE ICC, pp. 3422-3426. N. L. S. da Fonseca and ,J. Freitag (2007). Uplink Scheduling with Quality of Service in IEEE 802.16 Networks. In Proceedings of the IEEE Globecom’07. J. Sun, Y. Yau, and H. Zhu, Quality of Service Scheduling for 802.16 Broadband Wireless Access Systems. In Proceedings of the IEEE 63rd Vehicular Technology Conference, pp. 1221-1225, 2006 Xinyu, X., Mishra, S.; Xue Liu (2010). ARBOR: Hang Together Rather Than Hang Separately in 802.11 WiFi Networks," INFOCOM, 2010 Proceedings IEEE , vol., no., pp.1-9. Mondal, A., Cheng, H., Jin, L., Jain, M., & Kuzmanovic, A. (23-27 May 2010). A Case for WiFi Relay: Improving VoIP Quality for WiFi Users," IEEE International Conference on Communications (ICC), vol., no., pp.1-5. Lucani, D.E.; Badra, R.E.; Bianchi, C.M. (2007). Increasing VoIP Capacity on WiFi Networks through the Use of the FAIR Algorithm for MAC. Vehicular Technology Conference, IEEE 66th , vol., no., pp.1684-1688. Aravamudhan, L., Faccin, S., Mononen, R., Patil, B., Saifullah, Y., Sharma, S., et al. (2003, Jul 4). Getting to Know Wireless Networks and Technology. Retrieved December 6, 2011, from informit.com.: http://www.informit.com/articles/printerfriendly.aspx?p=98132 Geier, J. (2007). Wireless Network Industry Report. Wireless-Nets. Goldsmith, A. (2005). Wireless Communications. California, USA: Cambridge University Press.

مواد مشابهة