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关重要的作用。大数据、人工智能时代的到来为岩石工程的创新带来巨大的发展机遇。今后大规模、

               全方位、多维度及多场的岩石工程监测将得以实现。基于大数据分析的岩体工程设计、施工与运营
               中的监测分析、计算模拟与工程决策,将是大数据、人工智能时代的必然趋势。因此,岩石工程中
               应该进一步重视大数据和数据深度学习、挖掘的研究,加强应用其他行业的大数据研究成果,抓住

               人工智能带来的机遇,为未来岩石力学与岩石工程跨越式发展奠定基础。
                   4、深地工程将是未来岩石力学与岩石工程的战略前沿。深部地热能源与矿产资源的安全、有效
               开发和可靠储存关系到我国国民经济持续发展和能源战略安全,持续、安全、绿色的能源供应是我
               国乃至世界经济高速发展的基本保障和刚性需求。2016 年 5 月习近平主席以《为建设世界科技强国

               而奋斗》为题,举例强调“向地球深部进军是我们必须解决的战略科技问题”。目前我国在“深空”、
               “深海”和“深蓝”等影响国家长远发展和国家安全重大需求领域已取得长足进步,但在“深地”

               战略科学领域仍需大力发展前沿研究。

               参考文献:

               [1]  Briefs A. International Journal for Numerical and Analytical Methods in Geomechanics[J].

               [2]  CAO Wengui,LIN Xingtao,ZHANG Chao,YANG Shang. A statistical damage simulation method of dynamic
                   deformation process for rocks based on nonlinear dynamic strength criterion n[J]. Rock Mechanics and Rock
                   Engineering,2017, 36(4):794-802.

               [3]  Chen B, Feng X, Zeng X, et al. Real-time microseismic monitoring and its characteristic analysis during TBM
                   tunneling in deep-buried tunnel[J]. Chinese Journal of Rock Mechanics and Engineering, 2011, 30(2):275-283.
               [4]  CHEN Tao, DENG Jianhui, LI Linrui, et al. Deformation characteristics and stability evaluation of a heavily loosened
                   rock slope[J]. Chinese Journal of Rock Mechanics and Engineering, 2015, 34(S1): 2607-2616.

               [5]  Chen Z Q, Zhang Y X, Zhou J Y. Experimental study of deep tunnel surrounding rock rockburst proneness with
                   similarity material simulating method based on digital speckle correlation technique[J]. Rock and Soil Mechanics, 2011,
                   32:141-148.

               [6]  Chen Z.Y., Gong, W.J., Ma, G.W., Wang, J., He, L., Xing, Y.C., Xing, J.Y. Comparisons between centrifuge and
                   numerical modeling results for slope toppling failure[J]. Science China-Technological Sciences, 2015, 58:1497-1508.
               [7]  陈云娟,李术才,朱维申,等.非连续变形岩石断裂分析中的一种全长剪切锚杆[J].岩土力学,2014,35(1):293-297.
               [8]  崔凯,  谌文武,  韩琳,  等.  干旱区土遗址掏蚀区土盐渍劣化与风蚀损耗效应[J].  岩土工程学报, 2011, 33(9):

                   1412-1418.
               [9]  DAI Feng, GUO Liang, XU Nuwen, et al. Improvement of microseismic location based on an anisotropic velocity
                   model [J]. Chinese Journal of Geophysics-Chinese Edition, 2016,  (09):3291-3301.

               [10]  Deng X F, Zhu J B, Chen S G, et al. Numerical study on tunnel damage subject to blast-induced shock wave in jointed
                   rock masses[J]. Tunnelling and Underground Space Technology, 2014, 43(6):88-100.
               [11]  董陇军,  李夕兵,  唐礼忠.  无需预先测速的微震震源定位的数学形式及震源参数确定  [J].  岩石力学与工程学报,

                   2011, 30(10): 2058-2067.
               [12]  段建,言志信,郭锐剑,等.土层锚杆拉拔界面松动破坏分析[J].岩土工程学报,2012,34(5):936-941.
               [13]  FAN Qixiang,ZHOU Shaowu,LI Bingfeng. Key technologies of rock engineering for construction of Xiluodu
                   superhigh arch dam[J]. Chinese Journal of Rock Mechanics and Engineering,2012,31(10):1 998–2 015.

               [14]  樊启祥,王义锋,溪洛渡水电站地下厂房岩体工程实践,岩石力学与工程学报,2011,2986-2993

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