Najat Erradi

Work place: Information Technologies and Modeling Systems Research Unit, Abdelmalek Essaadi University, Faculty of sciences, Tetuan, Morocco

E-mail: n_erradi0105@yahoo.fr

Website:

Research Interests: Computer systems and computational processes, Planning and Scheduling, Computer Architecture and Organization, Data Structures and Algorithms

Biography

Najat Erradi, received the Desa degree in Telecommunications System from Faculty of Science of Tetuan in 2005 and is currently pursuing the Ph.D.degree. His research interests are mobile system planning and optimisation.

Author Articles
Capacity Enhancement by Using a Multi-User Detector on Uplink Synchronous Mode

By Fadoua Thami Alami Noura Aknin Najat Erradi Ahmed El Moussaoui

DOI: https://doi.org/10.5815/ijitcs.2016.06.03, Pub. Date: 8 Jun. 2016

The Uplink Synchronous Transmission Scheme [1], is a technique used by operators, that exploit the uplink orthogonality, to reduce multiple access interferences in uplink direction and consequently to increase uplink capacity. The USTS gives better performances when we have an ideal case presented by no channelization code restrictions per scrambling code. In reality, channelization codes are limited. To resolve this problem, several scrambling codes are used to admit more users in the cell. However, the use of different scrambling codes increases the multiple access interference and consequently decreases uplink capacity gain, since signals transmitted by users under different scrambling codes are non-orthogonal. To obtain more performances and therefore to increase the uplink capacity gain, we will study the introduction of a multi-user detector for interferences cancellation, in uplink synchronous mode. For that, two values of interference cancellation efficiency of the multi-user detector are considered. In this study, only the multiple access interference is reduced. To show the effect of other-cell interferences on uplink synchronous mode capacity, two scenarios are considered: an isolated cell and a multiple cell network.

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