[1] Wang J F, Cui Y, Sun H X et al. K-factor estimation for wireless communications over rician frequency-flat fading channels[J]. IEEE Wireless Communications Letters, 10, 2037-2040(2021).
[2] Tepedelenlioglu C, Abdi A, Giannakis G B. The Ricean K factor: estimation and performance analysis[J]. IEEE Transactions on Wireless Communications, 2, 799-810(2003).
[3] Chen Y, Beaulieu N C. Estimation of Ricean and Nakagami distribution parameters using noisy samples[C], 562-566(2004).
[4] Xing P F, Zhang T, Zeng X Y. A modified algorithm of Ricean Factor K estimation for L-DACS1 system[C], 6-10(2013).
[5] Chen Y F, Beaulieu N C. Maximum likelihood estimation of the K factor in Ricean fading channels[J]. IEEE Communications Letters, 9, 1040-1042(2005).
[6] Medawar S, Händel P, Zetterberg P. Ricean K-factor estimation and investigation of urban wireless measurements[C](2012).
[7] Leturc X, Ciblat P, le Martret C J. Estimation of the Ricean K-factor from noisy complex channel coefficients[C], 1092-1096(2016).
[8] Beaulieu N C, Chen Y F. MAP estimation of the Ricean K factor[J]. Canadian Journal of Electrical and Computer Engineering, 38, 130-131(2015).
[9] Alymani M, Alhazmi M H, Almarhabi A et al. Rician K-factor estimation using deep learning[C](2020).
[10] Fischer J, Koch R, Kilian G. Poster: measurement-based K-factor model for vehicle-to-vehicle communication[C](2018).
[11] Guan Y C. Research on indoor channel propagation characteristics of millimeter wave/submillimeter wave[D](2021).
[12] Kong D Q, Liu Z X, Cui C et al. Ricean factor estimation and performance analysis[C], 27-30(2009).
[13] He Y G, Liu C H, Yuan L F. Improvement of moments estimation for Rice factor based on Bessel function[J]. Application Research of Computers, 36, 3428-3430, 3437(2019).
[14] Tang P, Zhang J H, Molisch A F et al. Estimation of the K-factor for temporal fading from single-snapshot wideband measurements[J]. IEEE Transactions on Vehicular Technology, 68, 49-63(2019).
[15] Wang J F, Cui Y, Jiang H et al. Estimation of rice factor ratio for doubly selective fading channels[J]. IEEE Access, 8, 31330-31340(2020).
[16] Cho Y S, Kim J, Yang W Y et al[M]. MIMO-OFDM wireless communications with MATLAB(2010).