A Tractable Handoff-Aware Rate Outage Approximation with Applications to THz-Enabled Vehicular Network Optimization

Saeidi, Mohammad Amin; Shoaib, Haider; Tabassum, Hina

doi:10.1109/globecom54140.2023.10436904

GLOBECOM 2023 - 2023 IEEE Global Communications Conference 2023

DOI: 10.1109/globecom54140.2023.10436904

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A Tractable Handoff-Aware Rate Outage Approximation with Applications to THz-Enabled Vehicular Network Optimization

Mohammad Amin Saeidi,

Haider Shoaib,

Hina Tabassum

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2024

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Cited by 3 publications

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Multi-Band Wireless Communication Networks: Fundamentals, Challenges, and Resource Allocation

Aboagye,

Amin Saeidi,

Tabassum

et al. 2024

IEEE Trans. Commun.

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The sub-6 GHz spectrum and the millimeter wave frequency band, with its huge spectrum, have been exploited in the past years to meet the traffic demands of wireless communication networks. However, the limited and licensed spectrum of these bands cannot support the massive connectivity requirements, the exponential growth of data traffic, and the strict quality-of-service requirements for 6G and beyond wireless systems. Extremely high frequencies, such as optical and terahertz, which offer much wider transmission bandwidths with extreme data rate capabilities, are expected to play key roles in the 6G and beyond era. As a result, futuregeneration wireless networks will transition from single-band and heterogeneous networks to multi-band networks (MBNs), where various frequency bands coexist. Despite the great potential of MBNs, they face novel challenges from channel modeling, transceiver and antenna design, programmable simulation platforms, standardization activities, and resource allocation. This paper provides a tutorial overview from the communication design perspective of the various frequency bands, elaborating on the above issues. Then, we introduce and examine typical MBN architectures for future networks and provide a detailed overview of state-of-the-art resource allocation problems for existing MBNs that typically operate on two frequency bands. The considered resource allocation optimization problems and solution techniques are discussed comprehensively. We then identify key performance metrics and constraint sets that should be considered for resource allocation optimization in future MBNs and provide numerical results to depict how various system parameters and user behaviors can influence their performance. Finally, we present several potential research issues as future work for the design and performance optimization of MBNs.

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Multi-Band Wireless Communication Networks: Fundamentals, Challenges, and Resource Allocation

Aboagye,

Amin Saeidi,

Tabassum

et al. 2024

IEEE Trans. Commun.

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Power Efficient Handoff Management in Hybrid V2X Communication: Game-Theoretic Approach to Resource Allocation With Load Reduction

Sharma,

Ghosh,

Bhatnagar

et al. 2024

IEEE Trans. on Mobile Comput.

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Molecular Absorption-Aware User Assignment, Spectrum, and Power Allocation in Dense THz Networks With Multi-Connectivity

Amin Saeidi,

Tabassum,

Alizadeh

2024

IEEE Trans. Wireless Commun.

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A Tractable Handoff-Aware Rate Outage Approximation with Applications to THz-Enabled Vehicular Network Optimization

Cited by 3 publications

References 19 publications

Multi-Band Wireless Communication Networks: Fundamentals, Challenges, and Resource Allocation

Multi-Band Wireless Communication Networks: Fundamentals, Challenges, and Resource Allocation

Power Efficient Handoff Management in Hybrid V2X Communication: Game-Theoretic Approach to Resource Allocation With Load Reduction

Molecular Absorption-Aware User Assignment, Spectrum, and Power Allocation in Dense THz Networks With Multi-Connectivity

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