个人信息
Personal information
教授 博士生导师 硕士生导师
性别:男
在职信息:在职
所在单位:光学与电子信息学院
学历:研究生(博士)毕业
学位:工学博士学位
毕业院校:华中理工大学
学科:光学工程曾获荣誉:
2016 18luck新利电竞 教学质量一等奖
2017 18luck新利电竞 教学成果二等奖
2016 宝钢优秀教师奖
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科研项目
在研
2020-2021
横向项目
光学相干检测装置及应用研究
2019-2020
湖北省重大科技创新专项项目
基于AI的OLED显示面板缺陷检测与修复系统研发应用
2019-2020
横向项目
白酒酒精度光电传感器
2019-2020
湖北省自然基金面上项目
基于动/静态散射光融合测量的血红细胞粒径谱分析方法
2019-2020
横向项目
中小尺寸外观检测光学系统设计
2019-2020
横向项目
新型显示面板缺陷检测技术研究
2018-2021
国家自然科学基金面上项目
蛋白分子粒径谱的多角度光纤动态光散射测量方法研究
已结题
2016-2017
中国南方电网有限责任公司
基于多维度GIS状态诊断关键技术研究
2015-2017
国家自然科学基金委员会
散射影响下海水复折射率的测量方法研究
2013-2014
中国运载火箭研究院
水下对XX方法研究
2013-2016
横向项目
有机聚合物太阳能电池板制备工艺研究
2014-2017
国家重大仪器专项
现场级多波段红外成像光谱仪开发和应用
2012-2012
横向项目
XX成像系统
2013-2016
国家自然科学基金委员会
基于空间映射成像的海水三维体散射函数测量方法研究
2013-2015
博士点基金
基于激光成像的海水三维体散射函数测量方法研究
近五年发表期刊论文
1. Kecheng Yang, Long Yu, Min Xia, Tao Xu, and Wei Li, “Nonlinear RANSAC with crossline correction: An algorithm for vision-based curved cable detection system,” Optics and Lasers in Engineering, vol. 141, pp. 106417, (2021).
2. Xiaojun Yin, Hu Cheng, Kecheng Yang, and Min Xia, "Bayesian reconstruction method for underwater 3D range-gated imaging enhancement," Applied optics 59, 370-379 (2020).
3. Wei Li, Tiantian Ruan, Min Xia* and Li Xia, "Highly Precise Birefringence Demodulation to Overcome the Sensing Limitation From the Free Spectral Range on the Fiber Lyot Filter," IEEE Access8, 139846-139850 (2020).
4. Zhang, P., et al., Nanochannel-Based Transport in an Interfacial Memristor Can Emulate the Analog Weight Modulation of Synapses. Nano Letters, 2019.
5. Yan, G.W., et al., SNR-enhanced continuous spatial filtering velocimetry on a high-speed circuit breaker using linear CMOS. Applied Physics B-Lasers and Optics, 2019. 125(1).
6. Luo, Y., et al., High-precision algorithms for critical angle refractive index measurement. Applied Optics, 2019. 58(22): p. 6057-6062.
7. Guo, W.P., et al., Visual navigation method for sailing by collimating color lighting-emitting diodes. Optics and Laser Technology, 2019. 111: p. 489-496.
8. Guo, W., et al., Self-referenced technology for refractive index measurement under mechanical vibration and temperature fluctuation. Applied Optics, 2019. 58(7): p. 1862-1867.
9. Xianjiang Zeng,Wenping Guo, Kecheng Yang,Min Xia*. Noise reduction and retrieval by modified lidar inversion method combines joint retrieval method and machine learning. Applied Physics B-Lasers and Optics, 2018. 124(12).
10. Xianjiang Zeng,Min Xia, Yinghui Ge, Wenping Guo, Kecheng Yang, On-site ocean horizontal aerosol extinction coefficient inversion under different weather conditions on the Bo-hai and Huang-hai Seas. Atmospheric Environment, 2018. 177: p. 18-27.
11. Li, L., et al., Angular dependence of multiangle dynamic light scattering for particle size distribution inversion using a self-adapting regularization algorithm. Journal of Quantitative Spectroscopy and Radiative Transfer, 2018. 209: p. 91-102.
12. Li, L., et al., A regularization algorithm for estimating the multimodal size distribution of nanoparticles from multiangle dynamic light scattering. Particuology, 2018. 41: p. 30-39.
13. Chen, J.Y., et al., In situ measurement of seawater salinity with an optical refractometer based on total internal reflection method. Optics Express, 2018. 26(20): p. 25510-25523.
14. Li, L., et al., A recursive regularization algorithm for estimating, the particle size distribution from multiangle dynamic light scattering measurements. Journal of Quantitative Spectroscopy & Radiative Transfer, 2016. 178: p. 244-254.
15. Ye, J., et al., Expand the measurement range of a critical angle refractometer by a centroid method for transparent fluids. Optics and Laser Technology, 2015. 65: p. 175-179.
16. Liu, H., et al., Real part of refractive index measurement approach for absorbing liquid. Applied Optics, 2015. 54(19): p. 6046-6052.
17. Han, J.F., et al., Resolution enhancement in active underwater polarization imaging with modulation transfer unction analysis. Applied Optics, 2015. 54(11): p. 3294-3302.
18. Dai, J., et al., Measurement of the light scattering of single micrometer-sized particles captured with a microfluidic trap. Optics Express, 2015. 23(23): p. 30204-30215.
19. Cheng, Z., et al., Tight focusing of the azimuthally polarized light beam for a sharper spot. Optics and Laser Technology, 2015. 73: p. 77-81.
20. Cheng, Z., et al., Improved time-of-flight range acquisition technique in underwater lidar experiments. Applied Optics, 2015. 54(18): p. 5715-5725.
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