A Detail Review on Voice over Internet Protocol (VoIP)

  IJETT-book-cover  International Journal of Engineering Trends and Technology (IJETT)          
© 2015 by IJETT Journal
Volume-23 Number-4
Year of Publication : 2015
Authors : Sheetal Jalendry, Shradha Verma


Sheetal Jalendry, Shradha Verma"A Detail Review on Voice over Internet Protocol (VoIP)", International Journal of Engineering Trends and Technology (IJETT), V23(4),161-166 May 2015. ISSN:2231-5381. www.ijettjournal.org. published by seventh sense research group

Voice over Internet protocol (VoIP) is a new way of communicating. It is a technology that allows users to make telephone calls over an IP network. This paper will describe Voice over Internet Protocol (VoIP) to a level that allows business concerns of implementing VoIP, components of a VoIP system. The business concerns will be those that affect Quality of Service (QoS). VoIP components will include end-user equipment, network components, call processors, gateways and two of the more common architectures: Session Initiation Protocol (SIP), This paper gives a brief introduction of VoIP technology: the network structure, protocols, echo and delay, jitter, and packet loss in VoIP network. Finally, the survey concludes with a discussion on the feasibility of providing VoIP over challenging satellite links.


[1] Vijayakumar, M., Karthikeyani, V.and Omar, M. Implementation of Queuing Algorithm in Multipath Dynamic Routing Architecture for Effective and Secured Data Transfer in VoIP. International Journal of Engineering Trends and Technology, 2013. 4 (4): p. 1226-1230.
[2] Ali, A.N.A. Comparison study between IPV4 & IPV6. International Journal of Computer Science Issues, 2012. 9(3): p. 314-317.
[3] Dutta, C. and Singh, R. Sustainable IPv4 to IPv6 Transition. International Journal of Advanced Research in Computer Science and Software Engineering, 2012. 2 (10): p. 298-305.
[4] Reddy, P.V.P., Ali, K.M.I., Sandeep, B. and Ravi, T. Importance and Benefits of IPV6 over IPV4: A Study. International Journal of Scientific and Research Publications, 2012. 2 (12): p. 1-2.
[5] Dey, S and Shilpa, N. Issues in IPv4 to IPv6 Migration. International Journal of Computer Applications in Engineering Sciences, 2011. 1(1): p. 9- 13.
[6] Karim, A. VoIP Performance Over different service Classes under Various Scheduling Techniques. Australian Journal of Basic and Applied Sciences, 2011. 5(11): p. 1416-1422.
[7] Ayokunle, O.O. Integrating Voice over Internet Protocol (VoIP) Technology as a Communication Tool on a Converged Network in Nigeria. International Journal of Information and Communication Technology Research, 2012. 2 (11): p. 829-837.
[8] Al-Ani, M.S. and Haddad, R.A.A. IPv4/IPv6 Transition. International Journal of Engineering Science and Technology, 2012. 4 (12): p. 4815-4822.
[9] Abusin, A.A., Alam, M.D.J. and Abdullah, J. Testing and Analysis of VoIPv6 (Voice over Internet Protocol V6) Performance Using FreeBSD. International Journal of Communications, Network and System Sciences, 2012. 5: p. 298-302.
[10] Anouari, T. and Haqiq, A. Performance Analysis of VoIP Traffic in WiMAX using various Service Classes. International Journal of Computer Applications, 2012. 52 (20): p. 29-34.
[11] Chen, W., Wu, Q., Lin, Y. and Lo, Y. Design of SIP Application Level Gateway for IPv6 Translation. Journal of Internet Technology, 2004. 5 (2): p. 147-154.
[12] Kundu, A., Misra, I.S., Sanyal, S.K. and Bhunia, S. VoIP Performance over Broadband Wireless Networks under Static and Mobile Environments. International Journal of Wireless & Mobile Networks, 2010. 2 (4): p. 82-93.
[13] Falk, T.H. and Chan, W. Performance Study of Objective Speech Quality Measurement for Modern Wireless VoIP Communications. EURASIP Journal on Audio, Speech, and Music Processing, 2009. Vol. 2009: p. 1-11, doi:10.1155/2009/104382.
[14] Sharma, A., Varshney, M., Singh, N.K. and Shekhar, J. Performance Evaluation of VOIP: QoS Parameters. VSRD International Journal of Computer Science & Information Technology, 2011. 1 (4): p. 210-221.
[15] Kulkarni, S., Thontadharya, H.J. and Devaraju, J.T. Performance Evaluation of VoIP in Mobile WiMAX; Simulation and Emulation studies. International Journal on Computer Science and Engineering, 2011. 3 (3): p. 1124-1130.
[16] Thaker, C., Soni, N and Patel, P. Performance Analysis and Security Provisions for VoIP Servers. International Journal of Advancements in Research & Technology, 2013. 2 (2): p. 1-5.
[17] Ismail, M.N. Performance analysis between IPv6 and IPv4: voice over IP implementation in Campus Network. International Journal of Academic Research, 2012. 4 (5): p. 29-40.
[18] Yoo, H., Cagalaban, G.A. and Kim, S. A Study on the Connectivity of IPv6 to IPv4 Domains and Its Security Issues. International Journal of Advanced Science and Technology, 2009. 10: p. 1-10.
[19] Dawood, H.A. IPv6 Security Vulnerabilities. International Journal of Information Secirity Science, 2012. 1(4): p. 100-105.
[20] Durdagi, A. and Buldu, A. IPv4/IPv6 security and threat comparisons. Procedia Social and Behavioral Sciences, 2010. 2: p. 5285-5291.
[21] Brak, S.E., Bouhorma, M., Brak, M.E. and Bohdhir, A. Speech Quality Evaluation based Codec for VoIP over 802.11p. International Journal of Wireless & Mobile Networks, 2013. 5(2): p. 59-69.
[22] Handley, M. Why the Internet only just works. BT Technology Journal, 2006. 24 (3): p. 119-129.
[23] Valin, J.M., Vos, K. and Terriberry, T. Definition of the Opus Audio Codec, 2012. RFC 6716.
[24] Mohammed, H.A., Ali, A.H. and Mohammed, H.J. The Affects of Different Queuing Algorithms within the Router on QoS VoIP Application using OPNET. International Journal of Computer Networks & Communications, 2013. 5(1): p. 117-124.

VoIP, H.323, SIP, QoS, RTP, RTCP.