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SA3DLocLACRLB.m
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3DLocalization_by_SAs_from_LinearArrays

Localization in 3-D by Space Angles from Linear Arrays. This solution does not require special arrangements of the linear arrays as the previous methods [1-3] do.

[1] J. F. Zou, Y. M. Sun, and Q. Wan, "A Novel 3-D Localization Scheme Using 1-D Angle Measurements," IEEE Sensors Letters, vol. 4, no. 6, pp. 1-4, Jun 2020.

[2] J. F. Zou, Y. M. Sun, and Q. Wan, "An Alternating Minimization Algorithm for 3-D Target Localization Using 1-D AOA Measurements," IEEE Sensors Letters, vol. 4, no. 6, pp. 1-4, Jun 2020.

[3] Y. F. Wei, W. C. Li, Y. N. Guo, and H. S. Liao, "A New Closed-Form Algorithm for Spatial Three-Dimensional Localization with Multiple One-Dimensional Uniform Linear Arrays," IEICE Tran. Fund. Electr., vol. E103a, no. 4, pp. 704-709, Apr 2020.

If you use any of the following codes in your research, please cite the paper as a reference in your publication. Thank you!

Localization in 3-D by Space Angles from Linear Arrays (5/08/2022)

Reference

Y. Sun, K. C. Ho, L. Gao, J. Zou, Y. Yang, and L. Chen, "Three dimensional source localization using arrival angles from linear arrays: analytical investigation and optimal solution," IEEE Trans. Signal Process., vol. 70, pp. 1864-1879, 2022.

Code List:

  • SDR Solution: SA3DLocLA_SDR
  • Gauss-Newton MLE: SA3DLocLA_MLE
  • CRLB: SA3DLocLACRLB
  • Example: Fig10to22

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Localization in 3-D by Space Angles from Linear Arrays

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