Fredrik Athley scite author profile

Massive multi-user (MU) multiple-input multipleoutput (MIMO) systems are one possible key technology for next generation wireless communication systems. Claims have been made that massive MU-MIMO will increase both the radiated energy efficiency as well as the sum-rate capacity by orders of magnitude, because of the high transmit directivity. However, due to the very large number of transceivers needed at each basestation (BS), a successful implementation of massive MU-MIMO will be contingent on of the availability of very cheap, compact and power-efficient radio and digital-processing hardware. This may in turn impair the quality of the modulated radio frequency (RF) signal due to an increased amount of power-amplifier distortion, phase-noise, and quantization noise.In this paper, we examine the effects of hardware impairments on a massive MU-MIMO single-cell system by means of theory and simulation. The simulations are performed using simplified, well-established statistical hardware impairment models as well as more sophisticated and realistic models based upon measurements and electromagnetic antenna array simulations.

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Self-interference suppression in full-duplex MIMO relays

Lioliou

Viberg

Coldrey

et al. 2010

104

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Impact of Electrical and Mechanical Antenna Tilt on LTE Downlink System Performance

Athley

Johansson

2010

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Multiantenna Techniques

Zaidi¹,

Athley²,

Medbo³

et al. 2018

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Fredrik Athley

Threshold region performance of maximum likelihood direction of arrival estimators

On the impact of hardware impairments on massive MIMO

Self-interference suppression in full-duplex MIMO relays

Impact of Electrical and Mechanical Antenna Tilt on LTE Downlink System Performance

Multiantenna Techniques

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