Abstract
Ultra-Reliable Communication (URC) is one of the promising features in 5G to provide anytime and anywhere services to the end users. Services related to URC require a high level of reliability and availability. Hence, investigation of system’s availability in anytime and anywhere is considered as one of the important topics that would improve the quality and performance of systems. This paper focuses on studying the availability and reliability in the space domain for regular, irregular, and hybrid cell construction schemes. The hybrid construction will be proposed in this work as the more realistic one. The availability analysis for the new model is also studied and results comparison is carried out with those of regular and irregular models. The availability study for static and mobile end-users with different patterns of mobility for individual and multi-cell networks are also considered in this paper. At the end of the paper, the total transmission power for the three schemes considered in case of the homogenous (HomNets) and heterogeneous (HetNet) networks is also considered. Moreover, the power control, path loss, shadowing, Bit Error Rate and Spectral Efficiency are also considered in this work.
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Boccardi, F., Heath, R., Lozano, A., Marzetta, T., & Popovski, P. (2014). Five disruptive technology directions for 5G. IEEE Communications Magazine, 52, 74–80.
Osseiran, A., Boccardi, F., Braun, V., Kusume, K., Marsch, P., Maternia, M., et al. (2014). Scenarios for 5G mobile and wireless communications: the vision of the METIS project. IEEE Communications Magazine, 52, 26–35.
Fettweis, G., & Alamouti, S. (2014). 5G: Personal mobile internet beyond what cellular did to telephony. IEEE Communications Magazine, 52, 140–145.
Popovski, P. (2014). Ultra-reliable communication in 5G wireless systems. In 1st International Conference on 5G for Ubiquitous Connectivity (pp. 146–151). Congress and Exhibition Centre Levi Summit, Levi, Finland.
Azimi, S. M., Simeone,O., Sahin, O. & Popovski, P. (2016) Ultra-reliable cloud mobile computing with service composition and superposition coding. In 50th Annual Conference on Information Systems and Sciences, CISS 2016. IEEE. (pp. 442-447). Princeton, United States.
Schotten, H. D., Sattiraju, R., Serrano, D. G., Ren, Z., and Fertl, P. (2014) Availability indication as key enabler for ultra-reliable communication in 5G. In Networks and Communications European Conference (EuCNC). IEEE (pp. 1–5). Bologna, Italy.
Balapuwaduge, I. A. M., Li, F. Y., & Pla V. (2017) System times and channel availability for secondary transmissions in CRNs: A dependability-theory-based analysis. In IEEE Transactions on Vehicular Technology, Vol. 66, No. 3 (pp. 2771–2788), automata-based fractional frequency reuse scheme.
Weerasinghe, T. N., Balapuwaduge, I. A. M., and Li, F. Y. (2018) Per-user availability for ultra-reliable communication in 5G: Concept and analysis. In Wireless Communications and Networking Conference (WCNC). IEEE (pp. 1–6). Barcelona, Catalonia, Spain.
Mendis, H. K., & Li, F. Y. (2017). Achieving ultrareliable communication in 5G networks: A dependability perspective availability analysis in the space domain. IEEE Communications Letters, 21(9), 2057–2060.
Nafea, H. B., Sallam, M. M., & Zaki, F. W. (2018). Performance evaluation of sleep mode on power saving in WiMAX IEEE 802.16 m and LTE DRX. Wireless Personal Communications, 102(1), 183–200.
Aliu, O. G., Mehta, M., Imran, M. A., Karandikar, A., & Evans, B. (2015). A new cellular-automata-based fractional frequency reuse scheme. IEEE Transactions on Vehicular Technology, 64(4), 1535–1547.
Kim, J., Kim, T., Noh, J., & Cho, S. (2018). Fractional frequency reuse scheme for device to device communication underlaying cellular on wireless multimedia sensor networks. Sensors, 18(8), 1–21.
Park, J., Kim, D. M., Popovski, P., & Kim, S. L. (2017) Revisiting frequency reuse towards supporting ultra-reliable ubiquitous-rate communication”, In 2017 15th International Symposium on Modeling and Optimization in Mobile, Ad Hoc, and Wireless Networks (WiOpt), IEEE (pp. 1–6). Paris, France.
Hashima, S., Shalaby, H., Elnoubi, S., Alghoniemy, M., Muta, O., & Furukawa, H. (2013) Performance analysis of uplink fractional frequency reuse using worst case signal to interference ratio. In 2013 Science and Information Conference, IEEE (pp. 839–844). London, UK.
Hashima, S., Elnoubi, S., Alghoniemy, M., Shalaby, H., Muta, O., & Mahmoud, I. (2013) Analysis of frequency reuse cellular systems using worst case signal to interference ratio. In Proceedings of the 12th International Conference on Telecommunications, IEEE (pp. 185–190). Zagreb, Croatia.
Sun, S., Rappaport, T. S., Rangan, S., Thomas, T. A., Ghosh, A., Kovacs, I. Z., & Jarvelainen, J. (2016) Propagation path loss models for 5G urban micro-and macro-cellular scenarios. In 2016 IEEE 83rd Vehicular Technology Conference (VTC Spring), IEEE (pp. 1–6). Nanjing, China.
Garza-Hume, C. E., Jorge, M. C., & Olvera, A. (2018). Areas and Shapes of Planar Irregular Polygons. Forum Geometricorum, 18, 17–36.
Ferenc, J. S., & Néda, Z. (2007). On the size distribution of Poisson Voronoi cells. Physica A: Statistical Mechanics and its Applications, 385(2), 518–526.
Tun, P. T. Z., & Hlaing, A. S. (2013). Analysing radio wave propagation model for indoor wireless communication. International Journal of Advanced Research in Computer Engineering and Technology (IJARCET), 2(4), 1304.
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Nafea, H.B., Soultan, E.M. & Zaki, F.W. Availability of Cellular Systems Based on Space Domain. Wireless Pers Commun 107, 1881–1910 (2019). https://doi.org/10.1007/s11277-019-06363-5
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DOI: https://doi.org/10.1007/s11277-019-06363-5