Dahiru Sani Shu'aibu scite author profile

Dahiru Sani Shu'aibu

4Publications

20Citation Statements Received

10Citation Statements Given

How they've been cited

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Affiliations

Bayero University Kano, University of Technology Malaysia, MIMOS (Malaysia)

Publications

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Fuzzy Logic Partition-Based Call Admission Control for Mobile WiMAX

Shu'aibu

Yusof

Fisal

et al. 2011

ISRN Communications and Networking

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The unpredictable nature of the wireless network and exponential growth in traffics with different quality of service requirements has led hardware complexity to escalate. In order to effectively control and manage the network traffics, there is a need for intelligent call admission control (CAC) in admitting traffics into the wireless network that provides necessary quality of service. In this paper, we propose a fuzzy logic partition-based call admission control (FZ CAC). The scheme primarily partitions the total link bandwidth into three which corresponds to constant bit rate (CBR), variable bit rate (VBR) and handover (HO) services. The fuzzy logic admission control scheme was implemented in the HO portion to intelligently keep dropping probability as low as possible based on the available bandwidth. Simulation results showed that the proposed approach outperformed both partition-based CAC (PB CAC) and conventional bandwidth allocation CAC (CB CAC).

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Learning Automata Based Q-Learning RACH Access Scheme for Cellular M2M Communications

Shinkafi

Bello

Shu'aibu

et al. 2019

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Biologically-Inspired Optimal Video Streaming over Wireless LAN

Baguda

Fisal

Rashid

et al. 2011

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Investigating the effect of High Altitude Platform Positioning on Latency and Coverage of 4G Cellular Systems

Suleiman

Shu'aibu

Babale

2022

Int. j. commun. netw. inf. secur.

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Wireless communication technologies are rapidly being adopted and developed by countries all over the world as a strategy for sustaining a digital economy. This has proven very useful for economic recovery from the crises brought about by the COVID-19 pandemic of the year 2020. The latency and coverage area of a wireless network are two major areas that are always seeking improvement. The High Altitude Platform communication technology can provide improvement in speed and coverage area for 4G cellular systems. This work investigated the effect of positioning High Altitude Platforms on the latency and coverage of 4G cellular Systems. A quantitative approach was used in the methodology of this paper. A HAP model showing a single platform flying in a circular trajectory over Base Transceiver Stations BTSs and serving as a relay mobile station was presented. A detailed simulation algorithm for the HAP and results for the simulation were given. Results showed that using the HAP as a relay mobile station in a network can give a latency reduction of up to 58.9%. Also, the altitude of the HAP directly affects the angle of reception which was found to improve the coverage.

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