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教师主页 团队成员 科研项目 研究领域 学术成果 教学 科研分享 新闻动态 疼痛医学中心 成果介绍 软件 毕业去向 加入我们 联系我们 吴开亮 副教授、研究员、博导 数学系, 杰曼诺夫数学中心 吴开亮,籍贯安徽省安庆市,南方科技大学数学系/深圳国际数学中心/深圳国家应用数学中心 副教授、研究员、博士生导师。2011年获华中科技大学数学学士学位;2016年获北京大学计算数学博士学位;2016-2020年先后在美国犹他大学和美国俄亥俄州立大学从事博士后研究;2021年1月加入南方科技大学。 致力于研究偏微分方程数值解、机器学习与数据驱动建模、计算流体力学与数值相对论等。与合作者在高精度保结构数值方法及其理论分析方面做出了一系列工作:提出了几何拟线性化(GQL)框架,为研究含非线性约束的复杂保界问题提供了新途径;发展严谨理论,揭示了可压磁流体数值方法的保界/保正性与磁场的零散度条件之间的深层联系,解决了该方向的公开难题,被美国《数学评论》称为"a highly desirable task"、"a challenge";系统地发展了狭义和广义相对论流体力学的保物理约束(PCP)方法,被物理学家称为“在一般时空中,确保流体变量物理性的一种通用方法”。发展了一套高维函数序列逼近算法。基于深度学习构建了推演数据中蕴藏的未知数学方程/模型的新框架。 研究成果发表在SIAM系列期刊SIAM Review/SIAM J. Numer. Anal./SIAM J. Sci. Comput. (13篇)、J. Comput. Phys. (16篇)、Numer. Math. (2篇)、M3AS、JSC、天体物理权威期刊ApJS、Phys. Rev. D、人工智能期刊IEEE Transactions on Artificial Intelligence等。曾获中国数学会计算数学分会 优秀青年论文奖一等奖(2015)和中国数学会 钟家庆数学奖(2019);入选国家高层次人才计划(青年)、深圳市孔雀计划;主持国家自然科学基金 面上项目 和 重大研究计划-培育项目、深圳市优秀人才(杰青)项目。 个人简介 个人简介 研究领域 偏微分方程数值解 深度学习与数据科学 计算流体力学与数值相对论 高精度数值方法 逼近论与不确定性量化 吴开亮研究团队成员: Research Assistant Professor ◆ Dr. Shumo Cui (2023.02.01-present): Ph.D. from Tulane University; Postdoc at Temple University. Postdoctoral Fellows ◆ Dr. Shengrong Ding (2021.11-present): Ph.D. from University of Science and Technology of China. ◆ Dr. Junfeng Chen ( Postdoc Fellow: 2022.10-present; Visiting Postdoc Scholar: 2022.03-2022.09): B.Sc. from Tsinghua University, Ph.D. from Paris Sciences et Lettres – PSL Research University. ◆ Dr. Ruifang Yan (Postdoctoral Fellow: 2023.07-): Ph.D. from Wuhan University. ◆ Dr. Huihui Cao (Postdoctoral Fellow: 2023.07-): Ph.D. from Xiangtan University. ◆ Dr. Chuan Fan (Postdoctoral Fellow: 2023.09-; Visiting Postdoc Scholar: 2023.06-2023.09): Ph.D. from Xiamen University. ◆ Dr. Mengqing Liu (Postdoctoral Fellow: 2023.09-): Ph.D. from University of Chinese Academy of Sciences. Graduate Students ◆ Fang Yan (2021.09-2023.07), Master Student,B.Sc. from South China University of Technology. ◆ Zhuoyun Li(2022.09-), Ph.D. Student, B.Sc. from Southern University of Science and Technology. ◆ Manting Peng (2022.09-), Master Student, B.Sc. from Southern University of Science and Technology. ◆ Linfeng Xu (2022.09-), Master Student, B.Sc. from Southern University of Science and Technology. ◆ Dongwen Pang (2023.09-), Ph.D. Student, B.Sc. from Wuhan University of Technology, M.Phi from Xiangtan University. ◆ Miaosen Jiao (2023.09-), Master Student, B.Sc. from Southern University of Science and Technology. Visiting Graduate Students ◆ Haili Jiang (2021.04-2021.12), Visiting Ph.D. Student from Peking University. ◆ Caiyou Yuan(2023.06.29-), Visiting Ph.D. student from Peking University. ◆ Zhihao Zhang (2023.06.29-), Visiting Ph.D. student from Peking University. ◆ Jiangfu Wang (2023.06.29-), Visiting Ph.D. student from Peking University. 学术成果 查看更多 (Updated in Oct, 2023): [49] M. Peng, Z. Sun, and K. Wu* OEDG: Oscillation-eliminating discontinuous Galerkin method for hyperbolic conservation laws, submitted, 2023. [48] W. Chen, K. Wu, and T. Xiong High order structure-preserving finite difference WENO scheme for MHD equations with gravitation in all sonic Mach numbers, submitted, 2023. [47] C. Cai, J. Qiu, and K.Wu* Provably convergent Newton-Raphson methods for recovering primitive variables with applications to physical-constraint-preserving Hermite WENO schemes for relativistic hydrodynamics, submitted, 2023. [46] C. Zhang, K. Wu, and Z. He Critical sampling for robust evolution operator learning of unknown dynamical systems IEEE Transactions on Artificial Intelligence, accepted, 2023. [45] L. Xu, S. Ding, and K. Wu* High-order accurate entropy stable schemes for relativistic hydrodynamics with a general equation of state, submitted, 2023. [44] S. Ding and K.Wu* A new discretely divergence-free positivity-preserving high-order finite volume method for ideal MHD equations SIAM Journal on Scientific Computing, accepted, 2023. [43] S. Cui, S. Ding, and K. Wu* On optimal cell average decomposition for high-order bound-preserving schemes of hyperbolic conservation laws SIAM Journal on Numerical Analysis, accepted, 2023. [42] J. Chen and K. Wu* Deep-OSG: Deep learning of operators in semigroup Journal of Computational Physics, accepted, 2023. [41] Y. Ren, K. Wu, J. Qiu, and Y. Xing On positivity-preserving well-balanced finite volume methods for the Euler equations with gravitation Journal of Computational Physics, accepted, 2023. [40] A. Chertock, A. Kurganov, M. Redle, and K. Wu A new locally divergence-free path-conservative central-upwind scheme for ideal and shallow water magnetohydrodynamics SIAM Journal on Scientific Computing, submitted, 2022. [39] W. Chen, K. Wu, and T. Xiong High order asymptotic preserving finite difference WENO schemes with constrained transport for MHD equations in all sonic Mach numbers Journal of Computational Physics, 488: 112240, 2023. [38] S. Cui, S. Ding, and K. Wu* Is the classic convex decomposition optimal for bound-preserving schemes in multiple dimensions? Journal of Computational Physics, 476: 111882, 2023. [37] K. Wu*, H. Jiang, and C.-W. Shu Provably positive central discontinuous Galerkin schemes via geometric quasilinearization for ideal MHD equations SIAM Journal on Numerical Analysis, 61: 250-285, 2023. [36] Z. Sun, Y. Wei, and K. Wu* On energy laws and stability of Runge–Kutta methods for linear seminegative problems SIAM Journal on Numerical Analysis, 60(5): 2448–2481, 2022. [35] K. Wu and C.-W. Shu Geometric quasilinearization framework for analysis and design of bound-preserving schemes SIAM Review, (Research Spotlight) 65(4): 1031–1073, 2023. [34] K. Wu* Minimum principle on specific entropy and high-order accurate invariant region preserving numerical methods for relativistic hydrodynamics SIAM Journal on Scientific Computing, 43(6): B1164–B1197, 2021. [33] Z. Chen, V. Churchill, K. Wu, and D. Xiu* Deep neural network modeling of unknown partial differential equations in nodal space Journal of Computational Physics, 449: 110782, 2022. [32] K. Wu* and C.-W. Shu Provably physical-constraint-preserving discontinuous Galerkin methods for multidimensional relativistic MHD equations Numerische Mathematik, 148: 699–741, 2021. [31] Y. Chen and K. Wu* A physical-constraint-preserving finite volume WENO method for special relativistic hydrodynamics on unstructured meshes Journal of Computational Physics, 466: 111398, 2022. [30] H. Jiang, H. Tang, and K. Wu* Positivity-preserving well-balanced central discontinuous Galerkin schemes for the Euler equations under gravitational fields Journal of Computational Physics, 463: 111297, 2022. [29] K. Wu and Y. Xing Uniformly high-order structure-preserving discontinuous Galerkin methods for Euler equations with gravitation: Positivity and well-balancedness SIAM Journal on Scientific Computing, 43(1): A472–A510, 2021. [28] K. Wu and D. Xiu Data-driven deep learning of partial differential equations in modal space Journal of Computational Physics, 408: 109307, 2020. [27] K. Wu, T. Qin, and D. Xiu Structure-preserving method for reconstructing unknown Hamiltonian systems from trajectory data SIAM Journal on Scientific Computing, 42(6): A3704–A3729, 2020. [26] K. Wu and C.-W. Shu Entropy symmetrization and high-order accurate entropy stable numerical schemes for relativistic MHD equations SIAM Journal on Scientific Computing, 42(4): A2230–A2261, 2020. [25] Z. Chen, K. Wu, and D. Xiu Methods to recover unknown processes in partial differential equations using data Journal of Scientific Computing, 85:23, 2020. [24] K. Wu, D. Xiu, and X. Zhong A WENO-based stochastic Galerkin scheme for ideal MHD equations with random inputs Communications in Computational Physics, 30: 423–447, 2021. [23] J. Hou, T. Qin, K. Wu and D. Xiu A non-intrusive correction algorithm for classification problems with corrupted data Commun. Appl. Math. Comput., 3: 337–356, 2021. [22] K. Wu* and C.-W. Shu Provably positive high-order schemes for ideal magnetohydrodynamics: Analysis on general meshes Numerische Mathematik, 142(4): 995–1047, 2019. [21] T. Qin, K. Wu, and D. Xiu Data driven governing equations approximation using deep neural networks Journal of Computational Physics, 395: 620–635, 2019. [20] K. Wu and D. Xiu Numerical aspects for approximating governing equations using data Journal of Computational Physics, 384: 200–221, 2019. [19] K. Wu and D. Xiu Sequential approximation of functions in Sobolev spaces using random samples Commun. Appl. Math. Comput., 1: 449–466, 2019. [18] K. Wu and C.-W. Shu A provably positive discontinuous Galerkin method for multidimensional ideal magnetohydrodynamics SIAM Journal on Scientific Computing, 40(5):B1302–B1329, 2018. [17] K. Wu* Positivity-preserving analysis of numerical schemes for ideal magnetohydrodynamics SIAM Journal on Numerical Analysis, 56(4):2124–2147, 2018. [16] Y. Shin, K. Wu, and D. Xiu Sequential function approximation with noisy data Journal of Computational Physics, 371:363–381, 2018. [15] K. Wu and D. Xiu Sequential function approximation on arbitrarily distributed point sets Journal of Computational Physics, 354:370–386, 2018. [14] K. Wu and H. Tang On physical-constraints-preserving schemes for special relativistic magnetohydrodynamics with a general equation of state Z. Angew. Math. Phys., 69:84(24pages), 2018. [13] K. Wu and D. Xiu An explicit neural network construction for piecewise constant function approximation arXiv preprint arXiv:1808.07390, 2018. [12] K. Wu, Y. Shin, and D. Xiu A randomized tensor quadrature method for high dimensional polynomial approximation SIAM Journal on Scientific Computing, 39(5):A1811–A1833, 2017. [11] K. Wu* Design of provably physical-constraint-preserving methods for general relativistic hydrodynamics Physical Review D, 95, 103001, 2017. [10] K. Wu, H. Tang, and D. Xiu A stochastic Galerkin method for first-order quasilinear hyperbolic systems with uncertainty Journal of Computational Physics, 345:224–244, 2017. [9] K. Wu and H. Tang Admissible states and physical-constraints-preserving schemes for relativistic magnetohydrodynamic equations Math. Models Methods Appl. Sci. (M3AS), 27(10):1871–1928, 2017. [8] Y. Kuang, K. Wu, and H. Tang Runge-Kutta discontinuous local evolution Galerkin methods for the shallow water equations on the cubed-sphere grid Numer. Math. Theor. Meth. Appl., 10(2):373–419, 2017. [7] K. Wu and H. Tang Physical-constraint-preserving central discontinuous Galerkin methods for special relativistic hydrodynamics with a general equation of state Astrophys. J. Suppl. Ser. (ApJS), 228(1):3(23pages), 2017. (2015 Impact Factor of ApJS: 11.257) [6] K. Wu and H. Tang A direct Eulerian GRP scheme for spherically symmetric general relativistic hydrodynamics SIAM Journal on Scientific Computing, 38(3):B458–B489, 2016. [5] K. Wu and H. Tang A Newton multigrid method for steady-state shallow water equations with topography and dry areas Applied Mathematics and Mechanics, 37(11):1441–1466, 2016. [4] K. Wu and H. Tang High-order accurate physical-constraints-preserving finite difference WENO schemes for special relativistic hydrodynamics Journal of Computational Physics, 298:539–564, 2015. [3] K. Wu, Z. Yang, and H. Tang A third-order accurate direct Eulerian GRP scheme for one-dimensional relativistic hydrodynamics East Asian J. Appl. Math., 4(2):95–131, 2014. [2] K. Wu and H. Tang Finite volume local evolution Galerkin method for two-dimensional relativistic hydrodynamics Journal of Computational Physics, 256:277–307, 2014. [1] K. Wu, Z. Yang, and H. Tang A third-order accurate direct Eulerian GRP scheme for the Euler equations in gas dynamics Journal of Computational Physics, 264:177–208, 2014. 加入团队 招聘博士后研究员、研究助理教授(RAP); 每年计划招收博士生/硕士生 1-2名。有意者请将相关应聘或申请材料发送至:WUKL@sustech.edu.cn 邮件主题为“应聘岗位-应聘人姓名”(如,应聘博士后-张三)。博士后研究员招聘:博士后申请人应具有博士学位和学历,品学兼优、身心健康、年龄不超过35 岁;获得博士学位不超过3 年;能够保证全职在站从事博士后研究工作。岗位要求:1) 数学、计算物理、流体力学、计算机或其他相关专业,已获得或即将获得博士学位;2) 有计算数学、计算流体力学(特别是可压缩流体)、机器学习或数据科学相关的研究经验者优先;3) 具有良好的数学基础,精通至少一种计算机编程语言(C/C++、Python 或FORTRAN);4) 具有良好的英文阅读、写作和交流能力;5) 博士期间至少发表过1 篇高水平学术论文;6) 对科学研究有非常浓厚的兴趣,敢于探索挑战性的科学问题;7) 有上进心、独立思考精神、工作勤奋踏实、具有良好的团队合作精神。工作待遇和福利:1) 博士后聘用期两年,年薪33.4万元起(含广东省生活补助15万元及深圳市生活补助6万元),并按深圳市有关规定参加社会保险及住房公积金。2) 福利费(过节费、餐补、高温补贴等)约12000元/年(按节日,分月合并工资发放),另有各项工会实物福利等。3) 特别优秀候选人可以申请校长卓越博士后,年薪可达50万元以上。(含广东省及深圳市在站生活补贴;每年有两次申请“校长卓越博士后”机会)。4) 住房补贴33600元/年(分月合并工资发放):在站期间,可依托学校申请深圳市公租房,未依托学校使用深圳市公租房的博士后,可享受两年税前2800元/月的住房补贴。5) 拥有优良的工作环境和境内外合作交流机会,博士后在站期间享受两年共计2.5万学术交流经费资助。6) 课题组协助符合条件的博士后申请“广东省海外青年博士后引进项目”。即在世界排名前200名的高校(不含境内,排名以上一年度泰晤士、USNEWS、QS和上海交通大学的世界大学排行榜为准)获得博士学位,在广东省博士后设站单位从事博士后研究,并承诺在站2年以上的博士后,申请成功后省财政给予每名进站博士后资助60万元生活补贴(与广东省每年15万生活补助不同时享受,与深圳市每年6万元生活补助同时享受情况以深圳市规定为准);对获得本项目资助,出站后与广东省用人单位签订工作协议或劳动合同,并承诺连续在粤工作3年以上的博士后,省财政给予每人40万元住房补贴。7) 博士后出站选择留深从事科研工作,且与本市企事业单位签订3年以上劳动(聘用)合同的,可以申请深圳市博士后留深来深科研资助。深圳市政府给予每人每年10万元科研资助,共资助3年(以深圳市最新申报要求为准)。8) 根据《深圳市新引进博士人才生活补贴工作实施办法》规定,新引进博士人才生活补贴(10万元)与省市博士后在站生活补贴不同时享受。应聘材料:1) 个人详细简历,包括出生年月、联系方式、预计到岗时间、从本科起教育背景、工作经历等;2) 能充分反映本人学术水平的有关材料,例如,学术成果总结、已发表论著列表、代表性论著全文、成果获奖情况等;3) 提供至少2名推荐人的姓名及其有效联系方式。研究助理教授(RAP)招聘相关基本要求同博士后,待遇丰厚,具体面议。南科大研究生招生简介学制:硕士 2 年;非硕士起点博士 5 年,硕士起点博士 4 年;境外联培博士 4 年。住宿:目前硕士为两人间宿舍,博士单人间宿舍,住宿费 1300元/ 年,住宿条件在全国高校领先。学校将为研究生提供充足的资助(目前博士生最高 8+2 万/年, 硕士生最高 4+1 万/年),以及学术交流(包括海外交流)的机会。与境外大学联合培养的博士生有约 2 年的时间在境外学习,享受对方博士生同等待遇,由双方教授共同指导,发对方学校的学位证书。更多详情请见南方科技大学研究生院官网:http://gs.sustech.edu.cn 课题组简介课题组负责人吴开亮,现任南方科技大学数学系/深圳国际数学中心/深圳国家应用数学中心副教授、研究员、博士生导师。2011年获华中科技大学数学学士学位;2016年获北京大学计算数学博士学位;2016-2020年先后在美国犹他大学和美国俄亥俄州立大学从事博士后研究;2021年1月加入南方科技大学。致力于研究偏微分方程数值解、机器学习与数据驱动建模、计算流体力学与数值相对论等。研究成果发表在SIAM系列期刊SIAM Review/SIAM J. Numer. Anal./SIAM J. Sci. Comput. (13篇)、J. Comput. Phys. (16篇)、Numer. Math. (2篇)、M3AS、JSC、天体物理权威期刊ApJS、Phys. Rev. D等。曾获中国数学会计算数学分会 优秀青年论文奖一等奖(2015)和中国数学会 钟家庆数学奖(2019);入选国家青年人才计划、深圳市孔雀计划;主持国家自然科学基金面上项目和重大研究计划培育项目、深圳市杰青项目。研究方向:偏微分方程数值解;机器学习与数据科学;计算流体力学;高维逼近论与不确定性量化等。研究内容:课题组负责人和合作者在流体力学方程的高精度保结构(包括保界/保正、保平衡、保最小熵原理、熵稳定、保双曲性等)数值方法及其理论分析方面取得了一系列重要进展;首创“以辅助变量换取线性”的几何拟线性化理论框架,为研究强非线性的复杂保界问题开辟了新途径;发展严谨理论,揭示了可压缩磁流体数值方法的保界性与磁场的零散度条件之间的深层联系,解决了关于磁流体数值方法保界/正性的公开难题,被美国《数学评论》评价为“a highly desirable task”、“a challenge”;独立发现了弯曲时空中可容许状态集依赖于时空度规,系统地发展了狭义和广义相对论流体力学的保界方法,填补了该领域长达50年的空白,广义相对论情形的方法被天体物理学家称为“在一般时空中,确保流体变量物理性的一种通用方法”。发展了一套适合大数据的高维函数逼近算法及其分析,并提出用随机张量求积和最优抽样提升算法效率及临近替换法处理分布极不规则的数据。基于可解释的深度学习方法构建了智能推演大数据中蕴藏的未知数学方程/模型的新框架。个人主页:https://math.sustech.edu.cn/c/wukailiang?lang=zh联系方式:wukl@sustech.edu.cn 查看更多 联系我们 联系地址 M613, College of Science, 1088 Xueyuan Avenue, Xili, Nanshan District, Shenzhen, Guangdong 518055, P.R. China 办公电话 电子邮箱 WUKL@sustech.edu.cn