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Main Authors: Rezvani, Maryam, Adve, Raviraj, El-Keyi, Amr, Sediq, Akram bin
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2407.20988
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author Rezvani, Maryam
Adve, Raviraj
El-Keyi, Amr
Sediq, Akram bin
author_facet Rezvani, Maryam
Adve, Raviraj
El-Keyi, Amr
Sediq, Akram bin
contents Dynamic Metasurface Antennas (DMAs) have emerged as promising candidates for basestation deployment in the next generation of wireless communications. While overlooking the practical and hardware limitations of DMA, previous studies have highlighted DMAs' potential to deliver high data rates while maintaining low power consumption. In this paper, we address this oversight by analyzing the impact of practical hardware limitations such as antenna efficiency, power consumed in required components, processing limitations, etc. Specifically, we investigate DMA-assisted wireless communications in the uplink and propose a model which accounts for these hardware limitations. To do so, we propose a concise model to characterize the power consumption of a DMA. For a fair assessment, we propose a wave-domain combiner, based on holography theory, to maximize the achievable sum rate of DMA-assisted antennas. We compare the achievable sum rate and energy efficiency of DMA antennas with that of a partially connected hybrid phased array. Our findings reveal the true potential of DMAs when accounting for the limitations of both designs.
format Preprint
id arxiv_https___arxiv_org_abs_2407_20988
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Hardware Limitations of Dynamic Metasurface Antennas in the Uplink: A Comparative Study
Rezvani, Maryam
Adve, Raviraj
El-Keyi, Amr
Sediq, Akram bin
Signal Processing
Dynamic Metasurface Antennas (DMAs) have emerged as promising candidates for basestation deployment in the next generation of wireless communications. While overlooking the practical and hardware limitations of DMA, previous studies have highlighted DMAs' potential to deliver high data rates while maintaining low power consumption. In this paper, we address this oversight by analyzing the impact of practical hardware limitations such as antenna efficiency, power consumed in required components, processing limitations, etc. Specifically, we investigate DMA-assisted wireless communications in the uplink and propose a model which accounts for these hardware limitations. To do so, we propose a concise model to characterize the power consumption of a DMA. For a fair assessment, we propose a wave-domain combiner, based on holography theory, to maximize the achievable sum rate of DMA-assisted antennas. We compare the achievable sum rate and energy efficiency of DMA antennas with that of a partially connected hybrid phased array. Our findings reveal the true potential of DMAs when accounting for the limitations of both designs.
title Hardware Limitations of Dynamic Metasurface Antennas in the Uplink: A Comparative Study
topic Signal Processing
url https://arxiv.org/abs/2407.20988