# 5G Cellular User Equipment: From Theory to Practical Hardware Design

**Authors:** Yiming Huo, Xiaodai Dong, Wei Xu

arXiv: 1704.02540 · 2017-07-20

## TL;DR

This paper explores the hardware design constraints of 5G user equipment, proposes a novel reconfigurable DPA-MIMO architecture, and evaluates its performance through link budget and throughput analysis.

## Contribution

It introduces a new distributed phased arrays based MIMO architecture for 5G UE hardware, addressing design constraints and system trade-offs.

## Key findings

- Proposed DPA-MIMO architecture enhances reconfigurability.
- Numerical results show improved data throughput.
- Link budget analysis validates system feasibility.

## Abstract

Research and development on the next generation wireless systems, namely 5G, has experienced explosive growth in recent years. In the physical layer (PHY), the massive multiple-input-multiple-output (MIMO) technique and the use of high GHz frequency bands are two promising trends for adoption. Millimeter-wave (mmWave) bands such as 28 GHz, 38 GHz, 64 GHz, and 71 GHz, which were previously considered not suitable for commercial cellular networks, will play an important role in 5G. Currently, most 5G research deals with the algorithms and implementations of modulation and coding schemes, new spatial signal processing technologies, new spectrum opportunities, channel modeling, 5G proof of concept (PoC) systems, and other system-level enabling technologies. In this paper, we first investigate the contemporary wireless user equipment (UE) hardware design, and unveil the critical 5G UE hardware design constraints on circuits and systems. On top of the said investigation and design trade-off analysis, a new, highly reconfigurable system architecture for 5G cellular user equipment, namely distributed phased arrays based MIMO (DPA-MIMO) is proposed. Finally, the link budget calculation and data throughput numerical results are presented for the evaluation of the proposed architecture.

## Full text

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## Figures

24 figures with captions in the complete paper: https://tomesphere.com/paper/1704.02540/full.md

## References

70 references — full list in the complete paper: https://tomesphere.com/paper/1704.02540/full.md

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Source: https://tomesphere.com/paper/1704.02540