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Amer M. Magableh
Researcher at Jordan University of Science and Technology
Publications - 39
Citations - 310
Amer M. Magableh is an academic researcher from Jordan University of Science and Technology. The author has contributed to research in topics: Fading & Bit error rate. The author has an hindex of 7, co-authored 37 publications receiving 270 citations. Previous affiliations of Amer M. Magableh include University of Mississippi.
Papers
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Journal ArticleDOI
Moment generating function of the generalized α - μ distribution with applications
TL;DR: The moment generating function (MGF) is evaluated for the probability density function characterizing this new channel model and the derived MGF expression is used in evaluating the bit error rate for different coherent modulation techniques over this generalized fading channel.
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Capacity analysis of α − η − μ channels over different adaptive transmission protocols
TL;DR: The authors derive a new form for the cumulative distribution function of the signal-to-noise ratio (SNR) in terms of the bivariate Fox H-function and provide analytical closed-form expressions for the moments and the amount of fading of the SNR.
Proceedings ArticleDOI
Capacity of SIMO systems over non-identically independent Nakagami-m channels
TL;DR: An analytical expression is derived for the ergodic capacity of SIMO wireless communication systems over non-identically independent Nakagami-m subchannels and an expression for the capacity of i.i.d. NakagAMI-m case which requires much less computational time as compared to expressions reported in literature.
Proceedings ArticleDOI
Channel characteristics of the generalized alpha-mu multipath fading model
TL;DR: This paper derives expressions for the amount of fading and the average channel capacity for this channel model and shows the generalized attribute of this fading model; the α−μ fading distribution.
Journal ArticleDOI
On the performance of shared access control strategy for femtocells
TL;DR: An efficient resource utilization protocol is proposed, named as shared access protocol (SAP), to enable the unauthorized macrocell user equipment to communicate with partially closed‐access femtocell base station to improve and enhance the system performance.