A survey of new mid-band/FR3 for 6G: Channel measurement, characterization and modeling in outdoor environment

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Showing 4 of 4 citing papers.

• The Radon Transform, True Time Delay Beamforming, and Ultra-Wideband Antenna Arrays (Invited Paper) eess.SP · 2026-04-22 · unverdicted · none · ref 3

  True time delay beamforming equals the Radon transform of space-time array data, enabling Radon-based filtering, semblance AoA estimation, triangulation, and hyperbolic integration to isolate near-field sources in ultra-wideband arrays.

• Measurement-Based Massive MIMO Channel Characterization and Performance Evaluation at FR3 (8 and 15 GHz) Under Equal Physical Aperture eess.SP · 2026-04-17 · unverdicted · none · ref 15

  Under equal physical aperture, 15 GHz FR3 measurements show higher spectral efficiency than 8 GHz due to more antenna elements overcoming increased sparsity, despite a 3 dB coverage deficit.

• FR3 for 6G Networks: A Comparative Study against FR1 and FR2 Across Diverse Environments cs.ET · 2026-04-08 · unverdicted · none · ref 4

  Ray-tracing comparisons show FR3 yields higher cell-edge data rates than FR2 under equal-aperture antennas in urban environments, with negligible coverage difference between vehicular and pedestrian user equipment.

• Characterization of FR3 Cellular Vehicle-to-Base Station Links in HighRise Urban Scenarios cs.IT · 2026-04-05 · unverdicted · none · ref 3

  Ray-tracing shows FR3 achieves higher SNR than mmWave without interference and higher cell-edge SINR with full interference for C-V2B links when antennas have equal physical aperture.