Network-controlled repeater swarms substantially raise uplink OFDM capacity, with nearest-repeater activation delivering nearly the same gains as activating all repeaters.
Fair and energy-efficient activation control m ech- anisms for repeater-assisted massive MIMO
3 Pith papers cite this work. Polarity classification is still indexing.
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UNVERDICTED 3representative citing papers
Repeater gain optimization in dynamic TDD massive MIMO can improve downlink and uplink spectral efficiency by amplifying desired signals while limiting amplified noise and cross-link interference.
Derives closed-form spectral efficiency expressions and designs a distortion-aware combiner for repeater-assisted massive MIMO under third-order PA non-linearities.
citing papers explorer
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Capacity Analysis of OFDM Systems with a Swarm of Network-Controlled Repeaters
Network-controlled repeater swarms substantially raise uplink OFDM capacity, with nearest-repeater activation delivering nearly the same gains as activating all repeaters.
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Is Repeater-Assisted Massive MIMO Compatible with Dynamic TDD?
Repeater gain optimization in dynamic TDD massive MIMO can improve downlink and uplink spectral efficiency by amplifying desired signals while limiting amplified noise and cross-link interference.
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Network-Controlled Repeaters Under Power Amplifier Non-linearities
Derives closed-form spectral efficiency expressions and designs a distortion-aware combiner for repeater-assisted massive MIMO under third-order PA non-linearities.