[1] Wang S Y, Huang P, Wang T et al. Feasibility of continuous-variable quantum key distribution through fog[J]. Optics Letters, 46, 5858-5861(2021).

[2] Li Z, Zhang H, Liao Q et al. Ensemble learning for failure prediction of underwater continuous variable quantum key distribution with discrete modulations[J]. Physics Letters A, 419, 127694(2021).

[3] Liao Q, Zhong H, Guo Y. Multi-label learning for improving discretely-modulated continuous-variable quantum key distribution[J]. New Journal of Physics, 22, 083086(2020).

[4] Zhao M F, Yuan R Z, Cheng J L et al. Security of binary modulated continuous variable quantum key distribution using optimally displaced threshold detection[J]. IEEE Communications Letters, 25, 1089-1093(2021).

[5] He D, Wu Y J, Li Y L et al. Stability improvement enabled by four-state modulation in dual-polarization fiber optic gyroscopes[J]. Optics Communications, 452, 68-73(2019).

[6] Huang B, Huang Y M, Peng Z M. Attack and detection on reference-pulse phase of continuous-variable quantum-key distribution[J]. Acta Optica Sinica, 39, 1127001(2019).

[7] Zhao W, Shi R H, Feng Y Y et al. Unidimensional continuous-variable quantum key distribution with discrete modulation[J]. Physics Letters A, 384, 126061(2020).

[8] Ghalaii M, Ottaviani C, Kumar R et al. Discrete-modulation continuous-variable quantum key distribution enhanced by quantum scissors[J]. IEEE Journal on Selected Areas in Communications, 38, 506-516(2020).

[9] Chen S L, Zhang Z H, Liu L Y. Attribute selecting in tree-augmented naive Bayes by cross validation risk minimization[J]. Mathematics, 9, 2564(2021).

[10] Thirani E, Jain J, Narawade V. Enhancing performance evaluation for video plagiarism detection using local feature through SVM and KNN algorithm[J]. International Journal of Image, Graphics and Signal Processing, 13, 41-50(2021).

[11] Pan Y, Wang H, Shao Y et al. Experimental demonstration of high-rate discrete-modulated continuous-variable quantum key distribution system[J]. Optics Letters, 47, 3307-3310(2022).

[12] Erementchouk M, Mazumder P. Continuous-variable quantum key distribution with discretized modulations in the strong noise regime[J]. Physical Review A, 101, 062313(2020).

[13] Wang Y J, Wang X D, Li J W et al. Self-referenced continuous-variable measurement-device-independent quantum key distribution[J]. Physics Letters A, 382, 1149-1156(2018).

[14] Guo Y, Li R J, Liao Q et al. Performance improvement of eight-state continuous-variable quantum key distribution with an optical amplifier[J]. Physics Letters A, 382, 372-381(2018).

[15] Djordjevic I B. On the discretized Gaussian modulation (DGM)-based continuous variable-QKD[J]. IEEE Access, 7, 65342-65346(2019).

[16] Guo Y, Ding J Z, Mao Y et al. Quantum catalysis-based discrete modulation continuous variable quantum key distribution with eight states[J]. Physics Letters A, 384, 126340(2020).

[17] Jain N, Chin H M, Mani H et al. Practical continuous-variable quantum key distribution with composable security[J]. Nature Communications, 13, 4740(2022).

[18] Chu R Y, Wang Y, Yang X L et al. A selection criterion of fold K in cross-validation based on regularized KL distance[J]. Computer Technology and Development, 31, 52-57(2021).

[19] Lu F Y, Yin Z Q, Wang S et al. Uncharacterized-source measurement-device-independent quantum key distribution experiment with over 50 km fiber[J]. Acta Optica Sinica, 42, 0327017(2022).