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Personal Information  
Name :Taiseer Hasan Alghanim
Academic Rank :Professor
Office No :2099
Phone :
Department :Electrical Engineering
Email :tghanim@zu.edu.jo
CV

 
Qualifications
Bachelor : Jordan University, 1981 Date :
Master : 1985, (King Fahd University of Petroleum & Minerals (KFUPM Date :
Ph.D. : Ph.D. in Electrical Engineering from King Fahd University of Petroleum & Minerals (KFUPM), 1991 Date :
Research - Journals
Design of Linear Phased Array for interference suppression using Array Polynomial Method and Particle Swarm Optimization , T. H. Ismail, Wireless Personal Communications , Vol.63 (2), 501-513
01/01/2012
Abstract In this work, a linear phased array pattern design with null steering is achieved using the array polynomial technique and the Particle Swarm Optimization (PSO) algorithm. The null steering for interference suppression is obtained by controlling some of the roots on the Schelkunoff’s unit circle while keeping the roots responsible for the main beam unchanged. The rest of the roots are controlled to minimize the Side Lobe Level (SLL) of the array pattern using the PSO algorithm. It
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T.H. Ismail , Array Pattern Synthesis using Digital Phase Control by Quantized Particle Swarm Optimization, IEEE Trans. Antennas Propagat ,
05/01/2010
Abstract—A modified PSO algorithm called quantized PSO (QPSO) is described for the synthesis of antenna array patterns by digital phase shifters. The solution space of the QPSO algorithm is restricted to finite quantized integer values of the array phase coefficients. The QPSO search for an optimal solution within the available quantized values of the digital phase shifters to minimize the fitness function that includes the SLL value and interference suppression while maintains the main be

T.H. Ismail , Digital Amplitude Control For Interference Suppression Using Immunity Genetic Algorithm, Progress In Electromagnetics Research C , Vol. 11, 21-38
01/01/2009
In this paper, we propose a novel genetic algorithm (GA) called immunity GA (IGA) for array pattern synthesis with interference suppression using digital amplitude only control. The IGA is based on crossover evolution where the crossover operator is a variant of the known GA operator. A new formulation of the array factor transform for a speci¯c number of elements N is expressed by a discrete cosine transform (DCT) with pre-computed DCT matrix. Evaluating thousands of candidate solutions
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, T.H. Ismail, ,
10/01/2004
Abstarct

M. J. Mismar and T. H. Ismail , DOA and Power Estimation by Controlling the Roots of the Antenna Array Polynomial, Progress In Electromagnetics Research M , Vol. 46, 193–201
03/01/2016
Abstract—A new direction-of-arrival (DOA) and power estimation method of unknown number of source signals is proposed. The direction and power of coherent and/or noncoherent signals are estimated by controlling the roots of the array polynomial on the unit circle. The genetic algorithm is used to find the phases of the array polynomial roots that minimize the array output power. The pseudo-spectrum is obtained by phase rotation of the estimated roots, and the real power spectrum is derived f
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T. H. Ismail and M. M. Dawoud , Null steering in phased arrays by controlling the element positions, IEEE Trans. Antennas Propagat , vol. AP-39, pp.1561-1566
11/01/1991
Abstract

M. J. Mismar and T. H. Ismail , Partial control for wide band interference suppression using eigen-approach, IEEE Trans. Antennas Propagat , vol. AP-46, no. 4, pp.600-602
04/01/1998
Abstract—This paper presents a simple and efficient array pattern synthesis technique for multiple wide-band interference suppression using only the edge elements of linear arrays. By minimizing the mean-square value of the pattern in the directions of interference, the eigenvector that corresponds to the minimum eigenvalue is computed to obtain the required current excitation of the edge elements. The number of computations is greatly reduced since partial amplitude control of the edge e

Conferences
DOA Estimation by Controlling the Nulls of the Antenna Array Factor
Proceedings of the International Conference on Electrical and Electronic Engineering, Telecommunicat
Kuala Lumpur, Malaysia
2015.09.08
A new method for estimating the direction-of-arrival (DOA) of unknown number of source signals is proposed. The angular directions of coherent and/or non-coherent signals are estimated by controlling

DOA Estimation by Controlling the Nulls of the Antenna Array Factor
Proceedings of the International Conference on Electrical and Electronic Engineering, Telecommunicat
Kuala Lumpur, Malaysia
2015.09.08
A new method for estimating the direction-of-arrival (DOA) of unknown number of source signals is proposed. The angular directions of coherent and/or non-coherent signals are estimated by controlling

Optimization of Thinned Arrays Using Stochastic Immunity Genetic Algorithm
9th IEEE International Symposium on Signal Processing and Information Technology (ISSPIT09)
Ajman, United Arab Emirates (UAE)
2009.12.14
In this paper we propose a novel genetic algorithm called Immunity Genetic Algorithm (IGA) based on stochastic crossover evolution to solve the synthesis problem of thinned arrays.
File Research

DOA Estimation by Controlling the Nulls of the Antenna Array Factor"
Proceedings of the International Conference on Electrical and Electronic Engineering, Telecommunicat
Kuala Lumpur, Malaysia
2015.09.08
A new method for estimating the direction-of-arrival (DOA) of unknown number of source signals is proposed. The angular directions of coherent and/or noncoherent signals are estimated by controlling t
File Research

DOA Estimation by Controlling the Nulls of the Antenna Array Factor
Proceedings of the International Conference on Electrical and Electronic Engineering Telecommunicati
Kuala Lumpur, Malaysia
2015.09.08
A new method for estimating the direction-of-arrival (DOA) of unknown number of source signals is proposed. The angular directions of coherent and/or non-coherent signals are estimated by controlling
File Research

Experiences