科研成果

    科研成果

    当前位置: 首页 > 科研成果 > 正文

    关于申报2024年度云南红河熊庆来科学技术杰出贡献奖的公示

    来源: 时间:2024-07-16 作者: 点击:

    关于申报2024年度云南红河熊庆来科学技术杰出贡献奖的公示


    各单位:                                

    按照《关于开展 2024年度云南红河熊庆来科学技术杰出贡献奖评选工作的通知》的相关要求,现对拟申报2024年度云南红河熊庆来科学技术杰出贡献奖的申报奖项、候选人、候选人的主要科学技术成就和贡献、候选人论文或专著发表情况、候选人论文或专著被引用的检索证明、候选人曾获奖励情况等予以公示。

    一、 申报奖项

    云南红河熊庆来科学技术杰出贡献奖

    二、候选人

    何斌(数学与统计学院)

    三、候选人的主要科学技术成就和贡献

    主要依托主持的国家自然科学基金项目“某些非线性波方程的周期波的动力学性质、精确参数表示和极限形式研究”(编号:11461022),云南省科技计划项目“平面分支、符号计算方法及其在非线性波研究中的应用”(编号:2007A080M)、“非线性波动方程(组)的非连续轨道的动力学性质和精确解”(编号:2013FZ117)、“某些数学物理方程的周期波和周期波的极限形式研究”(编号:2014FA037)和参与的国家自然科学基金项目“非线性波方程行波系统的动力学性质和精确解研究”(编号:11161020)对非线性发展方程行波解的动力学行为和其他相关问题开展研究。

    2019年以前主要研究非线性发展方程非线性系统行波解的分支现象、行波解的存在性、行波解的精确参数表示;非线性发展方程周期波解的极限形式;非线性发展方程的符号计算方法和精确解;非线性发展方程的对称分析和相似解等。并在以下几个方面取得系列成果:(1)将动力系统分支方法与微分方程定性理论、微分方程因式分解技巧相结合,发现了多类非线性发展方程行波解的孤立波分支、扭子波分支、孤立尖波分支、周期尖波分支和loop孤子分支。证明了在不同参数条件下各类非线性波的存在性,给出了各类非线性波的精确表示。(2)将动力系统分支方法与广义函数理论相结合,证明了几类非线性发展方程光滑周期波、周期爆破波、周期loop孤子、周期尖波、周期紧孤立波和奇异周期波的存在性。通过理论分析和数值模拟,揭示了各类周期波与其它非线性波的内在关系。发现了新的广义周期尖波和广义周期紧孤立波,给出了各类周期波与它们的极限形式的精确表示。(3)将F-展开法、指数函数法、辅助方程方法相结合,改进和拓展了“双F展开法”和“双椭圆函数方法”等符号计算方法并将其应用于非线性发展方程研究,取得了一系列好的研究成果。拓展了“积分分支方法”,得到了改进的Camassa-Holm方程和改进的Degasperis-Procesi方程的loop孤子解和尖孤子解,得到了一类广义Camassa-Holm方程紧孤子解、尖紧孤子解、尖孤立波解和类扭子波解。 (4)将对称分析方法与动力系统分支方法、辅助方程方法、积分分支方法相结合,对一类用于刻画深水表面波的可积演化方程和(3+1)维Kudryashov-Sinelshchikov方程进行了研究,研究了方程的几何向量场和“对称约化”,得到了方程的相似变换,并在此基础上给出了方程丰富的相似解和行波解。

    2019年以来主要研究非线性发展方程的双线性形式、lump解、相互作用解和相互作用解的演化行为等。例如,研究了六阶Ramani方程和(2+1)维Vakhnenko方程的双线性形式,并利用三波法得到了方程的多类新的相互作用解。利用广田方法和测试函数方法得到了一类广义(3+1)维非线性波的传播模型新的lump解和相互作用解。利用广田方法和参数极限方法研究了一类广义(3+1)维破切孤子方程的相互作用解和相互作用解的演化行为,得到了方程新的相互作用解和有理解。利用贝尔多项式理论得到了(4+1)维变系数Fokas方程的双线性贝克隆变换、lump解和相互作用解。目前主要研究非线性发展方程的变量分离解和非线性波的局域激发。

    累计发表SCI收录论文56篇,其中以第一作者和通讯作者身份发表的30篇主要代表性论文被SCI收录论文引用398次,其中他人引用303次。

    2013年3月,成果“非线性波方程精确解研究和动力系统方法”获云南省自然科学奖二等奖(排名第一)。

    2023年6月,成果“若干非线性发展方程的行波解分支,周期波的极限形式和精确解研究”获云南省自然科学奖三等奖(排名第一)。

    四、候选人论文或专著发表情况

    [1] Bin He*, Qing Meng, Yao Long. The bifurcation and exact peakons, solitary and periodic wave solutions for the Kudryashov-Sinelshchikov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 17 (2012) 4137-4148.

    [2] He Bin*, Li Jibin, Long Yao, Rui Weiguo. Bifurcations of travelling wave solutions for a variant of Camassa-Holm equation. NONLINEAR ANALYSIS-REAL WORLD APPLICATIONS, 9 (2008) 222-232.

    [3] Bin He*, Qing Meng. Bifurcations and new exact travelling wave solutions for the Gerdjikov-Ivanov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 15 (2010) 1783-1790.

    [4] Bin He*, Qing Meng, Shaolin Li. Explicit peakon and solitary wave solutions for the modified Fornberg-Whitham equation. APPLIED MATHEMATICS AND COMPUTATION, 217 (2010) 1976-1982.

    [5] Weiguo Rui, Bin He*, Shaolong Xie, Yao Long. Application of the integral bifurcation method for solving modified Camassa-Holm and Degasperis-Procesi equations. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 3459-3470.

    [6] Huizhang Yang, Wei Liu, Biyu Yang, Bin He*. Lie symmetry analysis and exact explicit solutions of three-dimensional Kudryashov-Sinelshchikov equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 27 (2015) 271-280.

    [7] Bin He*. Bifurcations and exact bounded travelling wave solutions for a partial differential equation. NONLINEAR ANALYSIS-REAL WORLD APPLICATIONS, 11 (2010) 364-371

    [8] He Bin*, Meng Qing, Long Yao, Rui Weiguo. New exact solutions of the double sine-Gordon equation using symbolic computations. APPLIED MATHEMATICS AND COMPUTATION, 186 (2007) 1334-1346.

    [9] Qing Meng, Bin He*, Yao Long, Zhenyang Li. New exact periodic wave solutions for the Dullin-Gottwald-Holm equation. APPLIED MATHEMATICS AND COMPUTATION, 218 (2011) 4533-4537.

    [10] He Bin*, Rui Weiguo, Chen Can, Li Shaolin. Exact travelling wave solutions of a generalized Camassa-Holm equation using the integral bifurcation method. APPLIED MATHEMATICS AND COMPUTATION, 206 (2008) 141-149.

    [11] Bin He*, Qing Meng, Jinhua Zhang, Yao Long. Periodic Loop Solutions and Their Limit Forms for the Kudryashov-Sinelshchikov Equation. MATHEMATICAL PROBLEMS IN ENGINEERING, 2012 (2012) Article Number: 320163.

    [12] Bin He*, Yao Long, Weiguo Rui. New exact bounded travelling wave solutions for the Zhiber-Shabat equation. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 1636-1648.

    [13] Qing Meng, Bin He*, Yao Long, Weiguo Rui. Bifurcations of travelling wave solutions for a general Sine-Gordon equation. CHAOS SOLITONS & FRACTALS, 29 (2006) 483-489.

    [14] Bin He, Qing Meng*. Three kinds of periodic wave solutions and their limit forms for a modified KdV-type equation. NONLINEAR DYNAMICS, 86 (2016) 811-822.

    [15] Bin He*, Qing Meng.  Bilinear form and new interaction solutions for the sixth-order Ramani equation. APPLIED MATHEMATICS LETTERS, 98 (2019) 411-418.

    [16] Bin He*. New peakon, solitary wave and periodic wave solutions for the modified Camassa-Holm equation. NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 71 (2009) 6011-6018.

    [17] Bin He*, Qing Meng, Weiguo Rui, Yao Long. Bifurcations of travelling wave solutions for the mK(n,n) equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 13 (2008) 2114-2123.

    [18] Bin He*, Weiguo Rui, Yao Long. New exact double periodic wave and complex wave solutions for a generalized sinh-Gordon equation. APPLIED MATHEMATICS AND COMPUTATION, 229 (2014) 159-172.

    [19] Qing Meng, Wei Li, Bin He*. Smooth and Peaked Solitary Wave Solutions of the Broer-Kaup System Using the Approach of Dynamical System. COMMUNICATIONS IN THEORETICAL PHYSICS, 62 (2014) 308-314.

    [20] Bin He*, Qing Meng. Lump and interaction solutions for a generalized (3+1)-dimensional propagation model of nonlinear waves in fluid dynamics. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS, 98 (2021) 592-607.

    [21] Bin He*, Qing Meng. New exact explicit peakon and smooth periodic wave solutions of the K(3,2) equation. APPLIED MATHEMATICS AND COMPUTATION, 217 (2010) 1697-1703.

    [22] Qing Meng, Bin He*. Notes on "Solitary wave solutions of the generalized two-component Hunter-Saxton system". NONLINEAR ANALYSIS-THEORY METHODS & APPLICATIONS, 103 (2014) 33-38.

    [23] Meng Qing, He Bin*, Rui Weiguo, Long Yao. New exact solutions of the (n+1)-dimensional sine-Gordon equation using double elliptic equation method. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS, 87 (2010) 591-606.

    [24] Yumin Ding, Bin He*, Wei Li. A improved F-expansion method and its application to the Zhiber-Shabat equation. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 35 (2012) 466-473.

    [25] Bin He, Qing Meng*. Explicit kink-like and compacton-like wave solutions for a generalized KdV equation. NONLINEAR DYNAMICS, 82 (2015) 703-711.

    [26] He Bin*, Rui Weiguo, Li Shaolin, Chen Chan. Bounded travelling wave solutions for a modified form of generalized Degasperis-Procesi equation. APPLIED MATHEMATICS AND COMPUTATION, 206 (2008) 113-123.

    [27] Qing Meng, Bin He*. New Interaction Solutions for a (2+1)-Dimensional Vakhnenko Equation. COMPLEXITY, 2020  (2020)  Article Number: 5620245.

    [28] Bin He*,Qing Meng. Periodic traveling wave solutions and their limit forms for the (n+1)-dimensional double sinh-Gordon equation. OPTIK, 134 (2017) 239-256.

    [29] Qing Meng,Bin He*. Bifurcation analysis and exact traveling wave solutions for a generic two-dimensional sine-Gordon equation in nonlinear optics.  JOURNAL OF APPLIED ANALYSIS AND COMPUTATION, 10 (2020) 1443-1463.

    [30] Bin He*, Qing Meng. Notes on "Different kinds of exact solutions with two-loop character of the two-component short pulse equations of the first kind''. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 19 (2014) 1247-1255.

    五、候选人论文或专著被引用的检索证明

     [1] Vahid Shirvani-Sh*, Mehdi Nadjafikhah. Conservation laws and exact solutions of the Whitham-type equations. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 19 (2014) 2212-2219.

    [2] Jinghua Luo, Engui Fan*. Dbar-dressing method for the Gerdjikov-Ivanov equation with nonzero boundary conditions. APPLIED MATHEMATICS LETTERS, 120 (2021) 107297.

    [3] M. S. Bruzon*, E. Recio, R. de la Rosa, M. L. Gandarias. Local conservation laws, symmetries, and exact solutions for a Kudryashov-Sinelshchikov equation. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 41 (2018) 1631-1641.

    [4] Temesgen Desta Leta, Jibin Li*. Various Exact Soliton Solutions and Bifurcations of a Generalized Dullin-Gottwald-Holm Equation with a Power Law Nonlinearity. INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS, 27 (2017) 750129.

    [5] Ritu Pal, Harleen Kaur, Thokala Soloman Raju*, C. N. Kumar. Periodic and rational solutions of variable-coefficient modified Korteweg-de Vries equation. NONLINEAR DYNAMICS, 89 (2017) 617-622.

    [6] Ai-Juan Zhou, Ai-Hua Chen*. Exact solutions of the Kudryashov-Sinelshchikov equation in ideal liquid with gas bubbles. PHYSICA SCRIPTA, 93 (2018) 125201.

    [7] Adil Jhangeer, Amjad Hussain, M. Junaid-U-Rehman, Dumitru Baleanu*, Muhammad Bilal Riaz*. Quasi-periodic, chaotic and travelling wave structures of modified Gardner equation. CHAOS, SOLITONS AND FRACTALS, 143 (2021) 110578.

    [8] Bei Zhang, Yonghui Xia*, Wenjing Zhu, Yuzhen Bai. Explicit exact traveling wave solutions and bifurcations of the generalized combined double sinh-cosh-Gordon equation. APPLIED MATHEMATICS AND COMPUTATION, 363 (2019) 124576.

    [9] Merle Randruut*, Manfred Braun. On identical traveling-wave solutions of the Kudryashov-Sinelshchikov and related equations. INTERNATIONAL JOURNAL OF NON-LINEAR MECHANICS, 58 (2014) 206-211.

    [10] N.A. Kudryashov*. On nonlinear differential equation with exact solutions having various pole orders. CHAOS, SOLITONS AND FRACTALS, 75 (2015) 173-177.

    [11] Chunhai Li, Shuangquan Wen, Aiyong Chen*. Single peak solitary wave and compacton solutions of the generalized two-component Hunter-Saxton system. NONLINEAR DYNAMICS, 79 (2015) 1575-1585.

    [12] Santanu Saha Ray*, B Sagar. Numerical solution of fractional Dullin-Gottwald-Holm equation for solitary shallow water waves. NUMERICAL METHODS FOR PARTIAL DIFFERENTIAL EQUATIONS, 38 (2022) 1556-1569.

    [13] Jiyu Zhong,Shengfu Deng*. Traveling Wave Solutions of a Two-Component Dullin-Gottwald-Holm System. JOURNAL OF COMPUTATIONAL AND NONLINEAR DYNAMICS, 12 (2017) 031006.

    [14] Giuseppe Maria Coclite*, Lorenzo di Ruvo. Existence results for the Kudryashov-Sinelshchikov-Olver equation. PROCEEDINGS OF THE ROYAL SOCIETY OF EDINBURGH, 151 (2021) 425-450.

    [15] Gao-Qing Meng*, Yu-Song Pan, Hao-feng Tan, Xi-Yang Xie. Analytic solutions for the (2+1)-dimensional generalized sine-Gordon equations in nonlinear optics. COMPUTERS AND MATHEMATICS WITH APPLICATIONS, 76 (2018) 1535-1543.

    [16] Jalil Manafian*, Onur Alp Ilhan, Asad Alizadeh. Periodic wave solutions and stability analysis for the KP-BBM equation with abundant novel interaction solutions. PHYSICA SCRIPTA, 95 (2020) 065203.

    [17] Dipankar Kumar, Chun-Ku Kuo, Gour Chandra Paul*, Jui Saha, Israt Jahan. Wave propagation of resonance multi-stripes, complexitons, and lump and its variety interaction solutions to the (2+1)-dimensional pKP equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 100 (2021) 105853.

    [18] Meng-Jun Li, Hou-Ping Dai*, Xue-Dan Wei, Wei Tan. Some new soliton solutions and dynamical behaviours of (3+1)-dimensional Jimbo-Miwa equation. INTERNATIONAL JOURNAL OF COMPUTER MATHEMATICS,99 (2022) 1654-1668.

    [19] Sachin Kumar, Monika Niwas*, Shubham Kumar Dhiman. Abundant analytical soliton solutions and different wave profiles to the Kudryashov-Sinelshchikov equation in mathematical physics. JOURNAL OF OCEAN ENGINEERING AND SCIENCE, 7 (2022) 565-577.

    [20] Tianyong Han*, Zhao Li, Kaibo Shi, Guo-Cheng Wu. Bifurcation and traveling wave solutions of stochastic Manakov model with multiplicative white noise in birefringent fibers. CHAOS, SOLITONS AND FRACTALS, 163 (2022) 112548.

    [21] Yao-Lin Jiang*, Cheng Chen. Lie group analysis and dynamical behavior for classical Boussinesq-Burgers system. NONLINEAR ANALYSIS: REAL WORLD APPLICATIONS, 47 (2019) 385-397.

    [22] Deniu Yang*. Bright and dark solitons and periodic wave solutions for the

    Gerdjikov-Ivanov equation in nonlinear fiber optics. JOURNAL OF MATHEMATICAL ANALYSIS AND APPLICATIONS, 519 (2023) 126764.

    [23] Sadaf Shaheen*, Sirajul Haq, Abdul Ghafoor. A meshfree technique for the numerical solutions of nonlinear Fornberg-Whitham and Degasperis-Procesi

    equations with their modified forms. COMPUTATIONAL AND APPLIED MATHEMATICS, 41 (2022) 183.

    [24] Neng Zhu, Chaohong Pan, Zhengrong Liu*. Two kinds of important bifurcation phenomena of nonlinear waves in a generalized Novikov-Veselov equation. NONLINEAR DYNAMICS, 83 (2016) 1311-1324.

    [25] S. Saha Ray*. New Soliton and Periodic Wave Solutions to the Fractional DGH Equation Describing Water Waves in a Shallow Regime. QUALITATIVE THEORY OF DYNAMICAL SYSTEMS, 21 (2022) 151.

    [26] Zongguang LI, Rui LIU*. BLOW-UP SOLUTIONS FOR A CASE OF b-FAMILY EQUATIONS. ACTA MATHEMATICA SCIENTIA, 40 (2020) 910-920.

    [27] Zengji Du*, Ji Li, Xiaowan Li. The existence of solitary wave solutions of delayed Camassa-Holm equation via a geometric approach. JOURNAL OF FUNCTIONAL ANALYSIS, 275 (2018) 988-1007.

    [28] Huiyang Zhang, Yonghui Xia*. Persistence of kink and anti-kink wave solutions for the perturbed double sine-Gordon equation. APPLIED MATHEMATICS LETTERS, 141 (2023) 108616.

    [29] H. I. Abdel-Gawad*. Characteristics of velocity, bubble’s radius, and pressure in liquid and gas bubble mixture. PHYSICS OF FLUIDS, 36 (2024) 022125.

    [30] Xiaofeng Wang*. An energy-preserving finite difference scheme with

    fourth-order accuracy for the generalized Camassa-Holm equation. COMMUNICATIONS IN NONLINEAR SCIENCE AND NUMERICAL SIMULATION, 119 (2023) 107121.

    [31] Gao-Qing Meng*, Yu-Song Pan, Hao-feng Tan, Xi-Yang Xie. Analytic solutions for the (2+1)-dimensional generalized sine-Gordon equations in nonlinear optics. COMPUTERS AND MATHEMATICS WITH APPLICATION, 76 (2018) 1535-1543.

    [32] Jiaopeng Yang, Zongguang Li, Zhengrong Liu*. The Existence and Bifurcation of Peakon and Anti-Peakon to the n-Degree b-Equation. INTERNATIONAL JOURNAL OF BIFURCATION AND CHAOS, 28 (2018) 1850014.

    [33] Wenjing Zhu, Yonghui Xia*, Yuzhen Bai. Traveling wave solutions of the complex Ginzburg-Landau equation with Kerr law nonlinearity.  APPLIED MATHEMATICS AND COMPUTATION, 382 (2020) 125342.

    [34] Yaning Tang*, Qing Zhang, Bingchang Zhou, Yan Wang, Yetong Zhang. General high-order rational solutions and their dynamics in the (3+1)-dimensional Jimbo-Miwa equation. NONLINEAR DYNAMICS, 109 (2022) 2029-2040.

    [35] Evgenii G. Ekomasov, Azamat M. Gumerov*, Ramil R. Murtazin. Interaction of sine-Gordon solitons in the model with attracting impurities. MATHEMATICAL METHODS IN THE APPLIED SCIENCES, 40 (2017) 6178-6186.

    六、候选人曾获奖励及人才称号情况

    获奖时间

    获奖项目名称

    奖项名称

    奖励等级及排名

    授奖单位

    2013.3.22

    非线性波方程精确解研究和动力系统方法

    云南省自然科学奖

    二等奖  排名第一

    云南省人民政府

    2023.6.28

    若干非线性发展方程的行波解分支,周期波的极限形式和精确解研究

    云南省自然科学奖

    三等奖  排名第一

    云南省人民政府

    2016.1

    云南省中青年学术和技术带头人

    云南省高层次人才

    排名第一

    云南省人民政府

    2016.8

    云南省有突出贡献优秀专业人才

    云南省高层次人才

    三等奖  排名第一

    云南省人民政府

    2011.10.27

    享受云南省政府特殊津贴人员

    云南省高层次人才

    排名第一

    云南省人民政府

     七、公示时间

    2024年7月15日至2024年7月19日。在公示期内,对公示内容有异议的,可向红河学院科学技术处提出。提出异议者,须采取书面形式,写明提出异议的事实依据、个人真实姓名、工作单位、地址邮编和联系方式等。凡匿名异议、超出期限异议的不予受理。

    联系人:赖文瑛 龚吉惠

    联系电话:0873-3694760

    电子邮箱:20521663@qq.com

    通讯地址:云南红河蒙自东郊

                                                                            红河学院科学技术处

                                                     2024715




    【一审:】

    【二审:】

    【三审:】

    版权所有©红河学院科学技术处

    联系地址:云南省蒙自市红河学院明德楼219室

    联系电话:0873-3694760