Performance analysis for pilot-based $1$-bit channel estimation with unknown quantization threshold
M. Stein, S. Bar, J.A. Nossek, J. Tabrikian, in: Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process., Shanghai, China, 2016.
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Stein, Manuel;
Bar, Shahar;
Nossek, Josef A.;
Tabrikian, Joseph
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Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process.
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Stein M, Bar S, Nossek JA, Tabrikian J. Performance analysis for pilot-based $1$-bit channel estimation with unknown quantization threshold. In: Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process. ; 2016.
Stein, M., Bar, S., Nossek, J. A., & Tabrikian, J. (2016). Performance analysis for pilot-based $1$-bit channel estimation with unknown quantization threshold. Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process.
@inproceedings{Stein_Bar_Nossek_Tabrikian_2016, place={Shanghai, China}, title={Performance analysis for pilot-based $1$-bit channel estimation with unknown quantization threshold}, booktitle={Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process.}, author={Stein, Manuel and Bar, Shahar and Nossek, Josef A. and Tabrikian, Joseph}, year={2016} }
Stein, Manuel, Shahar Bar, Josef A. Nossek, and Joseph Tabrikian. “Performance Analysis for Pilot-Based $1$-Bit Channel Estimation with Unknown Quantization Threshold.” In Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process. Shanghai, China, 2016.
M. Stein, S. Bar, J. A. Nossek, and J. Tabrikian, “Performance analysis for pilot-based $1$-bit channel estimation with unknown quantization threshold,” 2016.
Stein, Manuel, et al. “Performance Analysis for Pilot-Based $1$-Bit Channel Estimation with Unknown Quantization Threshold.” Proc.\ IEEE Int.\ Conf.\ Acoustics, Speech and Signal Process., 2016.