Flexible non-uniform antenna arrays in monostatic ISAC achieve higher sum communication rates than uniform arrays, especially with fewer active antennas.
From antenna abundance to antenna intelligence in 6G gigantic MIMO systems
2 Pith papers cite this work. Polarity classification is still indexing.
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2026 2verdicts
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Reconfigurable array thinning via PSO creates flexible sparse arrays for near-field MU-MIMO that suppress grating lobes in angle-range domains and achieve sum-rate performance comparable to movable antennas without physical repositioning.
citing papers explorer
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Harnessing the Freedom of Non-Uniformity in Monostatic ISAC with Antenna Flexibility
Flexible non-uniform antenna arrays in monostatic ISAC achieve higher sum communication rates than uniform arrays, especially with fewer active antennas.
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Sparse Array Design for Near-Field MU-MIMO: Reconfigurable Array Thinning Approach
Reconfigurable array thinning via PSO creates flexible sparse arrays for near-field MU-MIMO that suppress grating lobes in angle-range domains and achieve sum-rate performance comparable to movable antennas without physical repositioning.