浏览次数:
安鹏举
特聘副研究员
硕士生导师

[1] An, P., Deng, Q., Yin, Y., Li, W., He, K., Fang, K., 2026. Temporal-spatial characteristics of surface cracks during landslide evolution. Eng. Geol. 367, 108723.

[2] Li, W., Deng, Q., Zhang, L., An, P., Ren, X., Su, X., Bai, R., Xie, J., Zeng, L., Fang, K., 2026. Inverse grading emerges from particle-scale migration under seasonal freeze-thaw forcing: evidence from multi-year monitoring and physical modeling. Geophys. Res. Lett. 53, e2025GL119590.

[3] An, P., Yong, R., Du, S., Long, Y., Chen, J., Zhong, Z., Fang, K., Wang, C., Song, J., 2025. Potential of smartphone-based photogrammetry for measuring particle size and shape in field surveys. Bull. Eng. Geol. Environ. 84, 238–257.

[4] He, C., Tang, H., An, P., Fang, K., Miao, M., 2025. Development of a novel 3D roughness index with an explicit physical-mechanical meaning for quantifying the roughness of rock joints. J. Earth Sci.

[5] Li, W., Deng, Q., An, P., Zhou, Z., Fang, K., 2025. Freeze-thaw migration behavior of scree deposits in the cold regions: insight from physical model test. Eng. Geol. 350, 108018.

[6] Wang, C., Huang, C., Yong, R., Liu, G., An, P., Ma, Z., Qin, J., 2025. Quantifying and mapping the heterogeneity of rock joint roughness and shear strength for rapid field assessment. Int. J. Min. Sci. Technol.

[7] Wang, Q., Tang, H., An, P., Fang, K., Zhou, B., Zhang, X., 2025. Shear strength and permeability in the sliding zone soil of reservoir landslides: insights into the seepage-shear coupling effect. J. Rock Mech. Geotech. Eng. 17, 2031–2040.

[8] An, P., Yong, R., Song, J., Du, S., Wang, C., Xu, H., Fang, K., Tong, S., 2024. Exploring the potential of smartphone photogrammetry for field measurement of joint roughness. Measurement 225, 114055.

[9] An, P., Yong, R., Wang, C., Jia, S., Fang, K., 2024. Utilizing crowdsourced data for timely investigation of catastrophic landslide accidents: a case study of the coal mine collapse in inner mongolia, china. Bull. Eng. Geol. Environ. 83, 354–370.

[10] Song, J., Du, S., Yong, R., Wang, C., An, P., 2023. Drone photogrammetry for accurate and efficient rock joint roughness assessment on steep and inaccessible slopes. Remote Sens. 15, 4880.

[11] An, P., Fang, K., Zhang, Y., Jiang, Y., Yang, Y., 2022. Assessment of the trueness and precision of smartphone photogrammetry for rock joint roughness measurement. Measurement 188, 110598.

[12] An, P., Tang, H., Li, C., Fang, K., Lu, S., Zhang, J., 2022. A fast and practical method for determining particle size and shape by using smartphone photogrammetry. Measurement 193, 110943.

[13] An, P., Fang, K., Jiang, Q., Zhang, H., Zhang, Y., 2021. Measurement of rock joint surfaces by using smartphone structure from motion (SfM) photogrammetry. Sens. 21, 922–944.

[14] An, P., Wei, C., Tang, H., Deng, Q., Yu, B., Fang, K., 2021. An improved calibration method to determine the strain coefficient for optical fibre sensing cables. Presented at the Photonics, MDPI, p. 429.

[15] Fang, K., An, P., Tang, H., Tu, J., Jia, S., Miao, M., Dong, A., 2021. Application of a multi-smartphone measurement system in slope model tests. Eng. Geol. 295, 106424.