Interference Mitigation in<scp>D2D</scp>Communication Underlaying<scp>LTE‐A</scp>Network

Safdar, Ghazanfar Ali; Rehman, Masood Ur; Muhammad, Mujahid; Imran, Muhammad Ali

doi:10.1002/9781119788829.ch2

Cited by 5 publications

(1 citation statement)

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“…All D2D users and cellular users share the same licensed frequency band where evolved node-B (eNB) can control D2D users (Ningombam & Shin, 2018). The in-band is subdivided into underlay and overlay communication (Safdar, Ur Rehman, Muhammad, & Imran, 2022). The spectrum is shared by cellular and D2D users in underlay in-band mode so that both groups can use the same radio resources to communicate simultaneously.…”

Section: Introductionmentioning

confidence: 99%

Device to Device Communication Using Optimized Frequency Spectrum Reuse (OFSR) in Multi-Layered Cellular Network

Matthew,

Aderinola,

Shuaibu

et al. 2024

JSMT

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In a cellular network, Device to Device (D2D) communication faces a number of difficulties, including interference and slow upward and downward linking between device connectivity with base stations. Utilizing optimum frequency spectrum reuse (OFSR), these two issues can be overcome. In order to prevent D2D communication devices on the Evolved Node B (eNB) and cellular user transmitters from interfering with D2D receiver, OFSR is a mechanism where the user reuses the frequency of another cell. The study looks at the problem of spectrum sharing between D2D and cellular communications in a cellular network. Under this network spectrum rationalization, D2D links may access the spectrum that a mobile network operator manages. Each D2D link has the choice of acquiring a sub-band for exclusive usage or gaining access to the sub- bands used by cellular users. Spectrum can also be shared by D2D lines that only use a particular sub-band. One to one hundred (1-100), one to two hundred (1-200), one to three hundred (1-300), and one to four hundred (1-400) users each made up a group (1-400). The system equations were used to represent the network information, such as link gains, noise levels, signal-to-interference- and-noise ratios, and the devices' selected communication mode. Simulations that incorporate D2D communication as an additional communication channel are utilized to demonstrate performance bounds for the cellular system based on the derived equations. When compared to resource allocation technique, the simulation result demonstrates that OFSR has less interference. As can be observed from the simulation results, the throughput in the down link is higher than the throughput in the uplink.

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Section: Introductionmentioning

confidence: 99%