Papers
Topics
Authors
Recent
Search
2000 character limit reached

Near-Field Channel Characterization for Mid-band ELAA Systems: Sounding, Parameter Estimation, and Modeling

Published 10 May 2024 in eess.SP | (2405.06159v1)

Abstract: 6G communication will greatly benefit from using extremely large-scale antenna arrays (ELAAs) and new mid-band spectrums (7-24 GHz). These techniques require a thorough exploration of the challenges and potentials of the associated near-field (NF) phenomena. It is crucial to develop accurate NF channel models that include spherical wave propagation and spatial non-stationarity (SnS). However, channel measurement campaigns for mid-band ELAA systems have rarely been reported in the state-of-the-art. To this end, this work develops a channel sounder dedicated to mid-band ELAA systems based on a distributed modular vector network analyzer incorporating radio-over-fiber (RoF), phase compensation, and virtual antenna array schemes. This novel channel-sounding testbed based on off-the-shelf VNA has the potential to enable large-scale experimentation due to its generic and easy-accessible nature. The main challenges and solutions for developing NF channel models for mid-band ELAA systems are discussed, including channel sounders, multipath parameter estimation algorithms, and channel modeling frameworks. Besides, the study reports a measurement campaign in an indoor scenario using a 720-element virtual uniform circular array ELAA operating at {16-20} GHz, highlighting the presence of spherical wavefronts and spatial non-stationary effects. The effectiveness of the proposed near-field channel parameter estimator and channel modeling framework is also demonstrated using the measurement data.

Definition Search Book Streamline Icon: https://streamlinehq.com
References (15)
  1. E. Björnson, E. G. Larsson, and T. L. Marzetta, “Massive MIMO: Ten myths and one critical question,” IEEE Commun. Mag., vol. 54, no. 2, pp. 114–123, 2016.
  2. Qualcomm Inc., “Channel modeling for new spectrum,” 3GPP RAN Rel-19 Workshop, RWS-230173, Jun. 2023. [Online]. Available: https://www.3gpp.org/ftp/TSG_RAN/TSG_RAN/TSGR_AHs/2023_06_RAN_Rel19_WS/Docs/RWS-230173.zip.
  3. X. Gao, O. Edfors, F. Rusek et al., “Massive MIMO performance evaluation based on measured propagation data,” IEEE Trans. Wireless Commun., vol. 14, no. 7, pp. 3899–3911, 2015.
  4. Z. Yuan, J. Zhang, Y. Ji et al., “Spatial non-stationary near-field channel modeling and validation for massive MIMO systems,” IEEE Trans. Antennas Propag., vol. 71, no. 1, pp. 921–933, 2023.
  5. E. De Carvalho, A. Ali, A. Amiri et al., “Non-stationarities in extra-large-scale massive MIMO,” IEEE Wireless Commun., vol. 27, no. 4, pp. 74–80, 2020.
  6. A. O. Martinez, E. De Carvalho, and J. Ø. Nielsen, “Towards very large aperture massive MIMO: A measurement based study,” in IEEE Globecom Workshops (GC Wkshps), 2014, pp. 281–286.
  7. X. Cai, B. Erik L, O. Edfors et al., “A switched array sounder for dynamic millimeter-wave channel characterization: Design, implementation and measurements,” 2023.
  8. D. Caudill, P. B. Papazian, C. Gentile et al., “Omnidirectional channel sounder with phased-arrayantennas for 5G mobile communications,” IEEE Trans. Microw. Theory Tech., vol. 67, no. 7, pp. 2936–2945, 2019.
  9. N. A. Abbasi, J. L. Gomez, R. Kondaveti et al., “THz band channel measurements and statistical modeling for urban D2D environments,” IEEE Trans. Wireless Commun., vol. 22, no. 3, pp. 1466–1479, 2023.
  10. J. Medbo, H. Asplund, J.-E. Berg et al., “Directional channel characteristics in elevation and azimuth at an urban macrocell base station,” in IEEE 6th European Conference on Antennas and Propagation (EUCAP), 2012, pp. 428–432.
  11. X. Cai and W. Fan, “A complexity-efficient high resolution propagation parameter estimation algorithm for ultra-wideband large-scale uniform circular array,” IEEE Trans. Commun., vol. 67, no. 8, pp. 5862–5874, 2019.
  12. M. Schmieder, F. Undi, M. Peter et al., “Directional wideband channel measurements at 28 GHz in an industrial environment,” in IEEE Global Communications Conference (GLOBECOM), 2019, pp. 1–6.
  13. X. Yin, S. Wang, N. Zhang et al., “Scatterer localization using large-scale antenna arrays based on a spherical wave-front parametric model,” IEEE Trans. Wireless Commun., vol. 16, no. 10, pp. 6543–6556, 2017.
  14. M. Li, Z. Yuan, Y. Lyu et al., “Gigantic MIMO channel characterization: Challenges and enabling solutions,” IEEE Commun. Mag., vol. 61, no. 10, pp. 140–146, 2023.
  15. K. Haneda, J.-i. Takada, and T. Kobayashi, “A parametric UWB propagation channel estimation and its performance validation in an anechoic chamber,” IEEE Trans. Microw. Theory Tech., vol. 54, no. 4, pp. 1802–1811, 2006.

Summary

No one has generated a summary of this paper yet.

Sign Up to Summarize

Paper to Video (Beta)

No one has generated a video about this paper yet.

Sign Up to Generate All Videos Subscribe on YouTube

Whiteboard

No one has generated a whiteboard explanation for this paper yet.

Sign Up to Generate

Open Problems

We haven't generated a list of open problems mentioned in this paper yet.

Generate Now

Continue Learning

We haven't generated follow-up questions for this paper yet.

Generate Now

Collections

Sign up for free to add this paper to one or more collections.

Sign Up

Tweets

Sign up for free to view the 1 tweet with 0 likes about this paper.

Sign Up for Free