Robert W. Heath scite author profile

Abstract-Next-generation cellular standards may leverage the large bandwidth available at millimeter wave (mmWave) frequencies to provide gigabit-per-second data rates in outdoor wireless systems. A main challenge in realizing mmWave cellular is achieving sufficient operating link margin, which is enabled via directional beamforming with large antenna arrays. Due to the high cost and power consumption of high-bandwidth mixed-signal devices, mmWave beamforming will likely include a combination of analog and digital processing. In this paper, we develop an iterative hybrid beamforming algorithm for the single user mmWave channel. The proposed algorithm accounts for the limitations of analog beamforming circuitry and assumes only partial channel knowledge at both the base and mobile stations. The precoding strategy exploits the sparse nature of the mmWave channel and uses a variant of matching pursuit to provide simple solutions to the hybrid beamforming problem. Simulation results show that the proposed algorithm can approach the rates achieved by unconstrained digital beamforming solutions.

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60 GHz wireless communications: Emerging requirements and design recommendations

Daniels

Heath

2007

IEEE Veh. Technol. Mag.

490

224

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As the result designed 16-element antenna array with corporate feed network, it has about 20% bandwidth and about 18 dBi gain. Designed antenna can be easily fabricated on LTCC substrate. ABSTRACT: This letter investigates design considerations and impact of technological parametric variations on microwave performance of gate electrode workfunction engineered recessed channel (GEWE-RC) MOSFET using ATLAS. Results reveal significantly enhanced microwave performance of GEWE-RC over bulk in terms of intrinsic delay, gains, cut-off frequency, S-parameters proving its effectiveness in radiofrequency-wireless, and RFID technology.

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Non-Stationarities in Extra-Large-Scale Massive MIMO

Carvalho

Ali

Amiri

et al. 2020

IEEE Wireless Commun.

185

111

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Framework for a Perceptive Mobile Network Using Joint Communication and Radar Sensing

Rahman

Zhang

Huang

et al. 2020

IEEE Trans. Aerosp. Electron. Syst.

187

110

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In this paper, we develop a framework for a novel perceptive mobile/cellular network that integrates radar sensing function into the mobile communication network. We propose a unified system platform that enables downlink and uplink sensing, sharing the same transmitted signals with communications. We aim to tackle the fundamental sensing parameter estimation problem in perceptive mobile networks, by addressing two key challenges associated with sophisticated mobile signals and rich multipath in mobile networks. To extract sensing parameters from orthogonal frequency division multiple access (OFDMA) and spatial division multiple access (SDMA) communication signals, we propose two approaches to formulate it to problems that can be solved by compressive sensing techniques. Most sensing algorithms have limits on the number of multipath signals for their inputs. To reduce the multipath signals, as well as removing unwanted clutter signals, we propose a background subtraction method based on simple recursive computation, and provide a closed-form expression for performance characterization. The effectiveness of these methods is validated in simulations.

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60 GHz Wireless: Up Close and Personal

et al. 2010

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Robert W. Heath

Hybrid precoding for millimeter wave cellular systems with partial channel knowledge

60 GHz wireless communications: Emerging requirements and design recommendations

Non-Stationarities in Extra-Large-Scale Massive MIMO

Framework for a Perceptive Mobile Network Using Joint Communication and Radar Sensing

60 GHz Wireless: Up Close and Personal

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