Bin Da scite author profile

This paper studies cooperative schemes for the inter-cell interference control in orthogonal-frequency-divisionmultiple-access (OFDMA) cellular systems. The downlink transmission in a simplified two-cell system is examined, where both cells simultaneously access the same frequency band using OFDMA. The joint power and subcarrier allocation over the two cells is investigated for maximizing their sum throughput with both centralized and decentralized implementations. Particularly, the decentralized allocation is achieved via a new cooperative interference control approach, whereby the two cells independently implement resource allocation to maximize individual throughput in an iterative manner, subject to a set of mutual interference power constraints. Simulation results show that the proposed decentralized resource allocation schemes achieve the system throughput close to that by the centralized scheme, and provide substantial throughput gains over existing schemes.

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Smart devices in the social loops: Criteria and algorithms for the creation of the social links

Atzori

Campolo

et al. 2019

Future Generation Computer Systems

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On Routing Scalability in Flat SDN Architectures

Ravuri

Vega

Hooft

et al. 2020

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Enhancing Identifier/Locator Splitting Through Social Internet of Things

Atzori

Campolo

et al. 2019

IEEE Internet Things J.

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Bin Da

miR-133b inhibits cell proliferation, migration, and invasion of lung adenocarcinoma by targeting CDCA8

Cooperative Interference Control for Spectrum Sharing in OFDMA Cellular Systems

Smart devices in the social loops: Criteria and algorithms for the creation of the social links

On Routing Scalability in Flat SDN Architectures

Enhancing Identifier/Locator Splitting Through Social Internet of Things

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