2020年6月15日,我院召开了威斯尼斯5158cc学位委员会会议,经参会委员投票表决,推荐以下5名同学的硕士学位论文申报校级优秀学位论文。现进行公示,公示期3天,公示期内如有疑问请联系威斯尼斯5158cc科研科,电话:0351-3921241.
| 序号 |
姓 名 |
学科 |
论文题目 |
论文数 |
论文备注 |
重复率 |
| 1 |
聂晓娟 |
化学 |
星型环糊精聚合物的制备及对有机染料分子的吸附性能研究 |
2 |
1.A dsorption behaviour of eriochrome black T from water onto a cross-linked β-cyclodextrin polymer/(2/7)/Colloids and Surfaces A/SCI
2.环糊精聚合物的合成及应用研究/(1/3)精细化工/EI
|
1.20% |
| 2 |
薛慧 |
数学 |
三类非线性波动方程的局域波解 |
5 |
1.非齐次光纤介质中孤子解和奇异波的特性研究/(1/3)数学的实践与认识/ 北大核心2017版 .
2. Dynamics of rogue waves for a generalized inhomogeneous third-order nonlinear Schrödinger equation from the Heisenberg ferromagnetic system(2/2)IEEE Access/(SCI).
3. Dynamics of higher-order localized waves for a coupled nonlinear Schrödinger equation/(2/3)/Communications in Nonlinear Science and Numerical Simulation/(SCI).
4. Nonlinear dynamics of rogue waves in a fifth-order nonlinear Schrödinger equation/(2/3)/IEEE Access/(SCI刊源).
5. 光孤子传输中奇异波和孤子解的动力学特性研究/(2/3)重庆理工大学(自然科学版)/北大核心2017版 |
0.20% |
| 3 |
张琳梅 |
数学 |
基于小波阈值处理的MEMS矢量水听器信号去噪方法 |
3 |
1.基于IGA--小波软阈值的MEMS矢量水听器信号去噪方法(1/4)/数学的实践与认识/北大核心.2017版 2.Denoising and baseline drift removal method of MEMS hydrophone signal based on VMD and wavelet threshold processing./(2/5)/IEEE ACCESS/SCI. 3.A Hybrid Algorithm Based on Squirrel Search Algorithm and Invasive Weed Optimization for Optimization./(2/5)/IEEE ACCESS./SCI |
6.30% |
| 4 |
赵宏波 |
物理学 |
光栅干涉型的微位移测量系统关键技术研究 |
1 |
High-precision microdisplacement sensor based on zeroth-order diffraction using a single-layer optical grating./(1/8)/Appl. Opt./SCI |
3.40% |
| 5 |
唐帅 |
物理学 |
基于人工超构材料的多功能声场调控特性研究 |
6 |
1.Directional acoustic transmission based on metamaterials/(1/3)/AIP Advances/SCI
2.Acoustic propagation characteristics of metamaterials with tubular structures/(1/2)/IEEE Access/SCI
3.Acoustic focusing imaging characteristics based on double negative locally resonant phononic crystal/(1/3)/IEEE Access/SCI
4.Directional transmission characteristics of acoustic waves based on artificial periodic structures/(1/3)/IEEE Access/SCI
5.Acoustic focusing effect based on artificial periodic structure/(1/4)/AIP Advances/SCI
6.Acoustic transmission characteristics based on H-type metamaterials/(1/2)/IEEE Access/SCI |
0.40% |
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