Alhamzah T. Mohammad

Work place: Middle Technique University, Baghdad, Iraq

E-mail: alhamza_tm@yahoo.com

Website:

Research Interests: Computational Engineering, Engineering

Biography

Alhamzah T. Mohammed Received his B.Sc. in Electronics and Communications Department /College of Engineering/ Al-Nahrain University (Baghdad, Iraq), 2004 received the M.Sc. degree in Electronics and Communications Department /college of Engineering/ Al-Nahrain University (Baghdad, Iraq), 2008, he worked a lecturer, researcher and training supervisor, Dep. of Electronic in Institute of Technology- Baghdad and College of Electrical Engineering Techniques. Currently he is head of Computer Communications Networks Branch, in Department of Computer Technology Engineering.

Author Articles
Indoor Localization Enhancement Based on Time of Arrival Using Sectoring Method

By Ahmed k. Daraj Alhamzah T. Mohammad Mahmood F. Mosleh

DOI: https://doi.org/10.5815/ijisa.2020.03.01, Pub. Date: 8 Jun. 2020

The indoor wireless communication in general, suffers from several challenges like, signal reflection, diffraction, and attenuation. With these problems, the error range is increased significantly and the accuracy will be lost. To address those problems, Mini Zone (MZ)e technique propos in this paper which aim to partition building into small areas lead to more simplicity and flexibility to assign suitable parameters for specific area rather than whole building. To do that, case study building separated to seven zone (A-G). Each zone has its specific characteristics related to its contents such as, objects, walls, windows and any types of materials in addition to the distance between transmitters and each zone. We took in account these specific parameters to estimate the correct position. 56 receivers (8 for each zone) and 3 transmitters deployed in the case study building. The Wireless Insite Package has been used to design the chosen building and measure the required parameters. The target position has been estimated depending on RSS and ToA methods The objectives of this study are to implement a dynamic system that has capabilities to estimate position under deference conditions like LOS or NLO with the same accuracy. In addition, study the suitability of TOA and RSS methods to estimate position. These objectives were done based on the proposed technique by decrease error in the whole system to an acceptable level to be (0.293502m). Also, the results confirm that the TOA method was better than RSS by using propos technique.

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