https://doi.org/10.2298/FUEE2002243L

243

259

This paper presents a novel method of expressing the quality of service in a mobile telecommunication system when its performance depends on several factors including applied codecs’ characteristics (voice quality and data flow rate) and telecommunications traffic service possibilities. The influence of these factors is unified in one variable - quality of service measure. The proposed method is especially applicable in the cases when two-dimensional systems are analyzed – for example when two codecs with different flow rate and different achievable connection quality are used in a system. As an example, we also studied system with full-rate or mixed full-rate and half-rate codec implementation depending on the offered traffic. The system performances – mean data-flow and mean connection quality as a function of offered traffic are presented graphically and also expressed quantitatively by the novel quality of service measure. The systems with different number of available traffic channels may be compared on the base of this novel evaluation value such that the system with the highest value is the most suitable one for the concrete situation. In this way mobile system design is simplified to the great extent. The developed model is applicable generally for mobile telephony systems defining, but in this paper we studied its implementation for Global System for Mobile communications.

Quality of service measure, full-rate codec, half-rate codec, E-model

I. Vidaković and T. Šuh, “Proposition of New Criteria for Estimation of Voice Coders”, Tehnika, vol. 58, no. 6, pp. 1–5, 2009, in Serbian.

ITU-T, Recommendation G.107, “The E-model, a Computational Model for Use in Transmission Planing”, Series G: transmission systems and media, digital systems and networks, 2015.

H. Assem, “Assessing and Improving the VVoIP Call Quality”, Master of Science Thesis, Hamilton Institute, National University of Ireland Maynooth, 2013.

T. Daengsi and P. Wuttidittachotti, “QoE Modeling: A Simplified E-model Enhancement Using Subjective MOS Estimation Model“, In Proceedings of the Conference ICUFN2015, At Sapporo, Japan, 2015.

S. Möller, “Assessment and Prediction of Speech Quality in Telecommunications“, Springer-Science + Business Media, B. V., ISBN 978-1-4419-4989-9, 2000.

O. Nipp, M. Kuhn, A. Wittneben and T. Schweinhuber, “Speech Quality Evaluation and Benchmarking in Cellular Mobile Networks”, In Proceedings of the IEEE 2007 Mobile and Wireless Communications Summit, Budapest, Hungary, 1-5 July 2007, pp. 1–5.

C. E. Otero, I. Kostanic, L. D. Otero, S. L. Meredith, “Characterization of User-Perceived Quality of Service (QoS) in Mobile Devices Using Network Pairwise Comparisons”, International Journal of Wireless & Mobile Networks (IJWMN), vol. 2, no.3, pp. 141–153, 2010.

R. Kadioğlu, Y. Dalveren, A. Kara, “Quality of service assessment: a case study on performance benchmarking of cellular network operators in Turkey”, Turkish Journal of Electrical Engineering & Computer Science, vol. 23, pp. 548–559, 2015.

A. Lebl, D. Mitić, P. Petrović, V. Matić, M. Mileusnić and Ž. Markov, “The Application of Equal Quality Characteristics „Delay-Echo-Packet Loss“ to Internet Voice Connection Planning”, In Proceedings of the 15th International Symposium INFOTEH Jahorina 2016, 16-18.III 2016, pp. 284–289.

D. Mitić, A. Lebl, M. Mileusnić, B. Trenkić and Ž. Markov, “Traffic simulation of GSM cells with half-rate connection realization possibility“, Journal of Electrical Engineering, vol. 67, no. 2, pp. 95–102, 2016.

M. A. Habibi, W. Nasimi, B. Han and H. D. Schotten, “A Comprehensive Survey of RAN Architecture Toward 5G Mobile Communication System”, IEEE Access, vol. 7, pp. 70371–70421, 2019.

B. G. Gopal , P. G. Kuppusamy, “A Comparative Study on 4G and 5G Technology for Wireless Applications”, IOSR Journal of Electronics and Communication Engineering (IOSR-JECE), vol.10, issue 6, pp. 67–72, 2015.

R. A. Aljiznawi, N. H. Alkhazaali, S. Qasim Jabbar and D. J. Kadhim, “Quality of Service (QoS) for 5G Networks”, International Journal of Future Computer and Communication, vol. 6, no. 1, pp. 27–30, 2017.

Agilent Technologies, „Optimizing your GSM network today and tomorrow, using drive testing to estimate downlink speech quality”, Application Note 1325, July 2001.

ITU-T Recommendation G.113, “Series G: Transmission systems and media, digital systems and networks: Transmission impairments due to speech processing”, November 2007.

ITU-T, SG12 – D.106, „Estimates of Ie and Bpl parameters for a range of CODEC types”, Telchemy Incorporated, January 2003.

A. Kovac, M. Halas, M. Orgon and M. Voznak, “E- model MOS Estimate Improvement through Jitter Buffer Packet Loss Modelling”, Advances in Electrical and Electronic Engineering, vol. 9, no. 5, pp. 233–242, Special Issue, 2011.

E. M. M. Winands, J. Wieland and B. Sanders, “Dynamic Half-rate Connections in GSM”, AEÜ - International Journal of Electronics and Communications, vol. 60, no. 7, pp. 504–512, July 2006.

W. B. Iversen, “Teletraffic Engineering and Network Planning”, Technical University of Denmark, DTU Course 34340, 2015.4.

T. Koistinen, “Voice Coding in 3G Networks”, IP Telephony protocols, architectures and issues, Helsinki University of Technology Networking Laboratory, Report 2/2001, pp. 39–46.

Voice codecs, https://www.gl.com/voice-codecs.html.

A. Rämö and H. Toukomaa, “On Comparing speech quality of various narrow- and wideband speech codecs”, In Proceedings of the Eighth International Symposium on Signal Processing and Its Applications, 28-31. August 2005, Sidney, Australia, pp. 603–606.

J. Abichandani, J. Baenke, M. S. Irizarry, N. Saxena, P. Vyas, S. Prasad, S. Mada and Y. Z. Tafesse, „A Comparative Study of Voice Quality and Coverage for Voice over Long Term Evolution Calls Using Different Codec Mode-sets”, IEEE Access, vol. 5, June 2017, pp. 10315–10322.

S. Malisuwan, D. Milindavanij and W. Kaewphanuekrungsi, “Quality of Service (QoS) and Quality of Experience (QoE) of the 4G LTE perspective”, International Journal of Future Computer and Communication, vol 5, no. 3, June 2016, pp. 158–162.

D. H. Nguyen, “Enhancing and improving voice transmission quality over LTE network: Challenges and Solutions”, Doctorat en co-accreditation Télécom Sudparis – Institut Mines- Télécom et L’Université Pierre et Marie Curie – Paris 6, 24. February 2017.