黄珺

部门: 通信工程系
姓名: 黄珺
邮箱: junhwong@whu.edu.cn
性别:
职称: 讲师
学历学位: 博士
导师类型:
办公电话:
通信地址: http://mvp.whu.edu.cn
邮政编码:
主要经历:
学习经历:

2008–2014, 华中科技大学, 电路与系统, 博士
2004–2008, 华中科技大学, 电子信息工程, 学士

任职经历:

2014-至今,武汉大学,电子信息学院,讲师
2017-2018,佐治亚理工学院,School of Electrical and Computer Engineering,访问学者

主讲课程:
本科生课程:  
研究生课程:  
科学研究:
主要研究方向:

红外成像

主要科研课题及项目:

主持项目:
1.国家自然科学基金青年基金,61605146,面向傅里叶红外成像光谱仪干涉数据立方的场景非均匀性校正方法,2017-2019
2.国家863计划701主题,2014AA7014047-2015AA7014047,xx探测技术研究,2014-2016
3.中国博士后科学基金,2015M572194,基于傅里叶成像光谱仪的海面温度遥感信号处理方法研究,2015-2016
参与项目:
1.国家自然科学基金面上项目,61275098,红外超光谱谱指纹检测和识别海洋溢油污染方法研究,2013-2016
2.国家自然科学基金青年基金,61108074,实时获取高精度海水布里渊频谱的信号处理方法研究,2012-2014
3.国家863计划704主题,2011AA7044030-2015AA7044030,xx过程中的红外图谱目标成像测量技术研究,2011-2016

主要论文及著作:
 
1. Xiaoye Zhang, Yong Ma, Fan Fan, Ying Zhang, and Jun Huang*. Infrared and visible image fusion via saliency analysis and local edge-preserving multi-scale decomposition[J]. JOSA A, 2017, 34(8): 1400-1410.
2. Huang J, Ma Y, Mei X, et al. A hybrid spatial-spectral denoising method for infrared hyperspectral images using 2DPCA[J]. Infrared Physics & Technology, 2016, 79: 68-73. 
3. Liu Z, Ma Y, Huang J*, et al. A registration based nonuniformity correction algorithm for infrared line scanner[J]. Infrared Physics & Technology, 2016, 76: 667-675. 
4. Ma J, Chen C, Li C, Huang, J.* Infrared and visible image fusion via gradient transfer and total variation minimization[J]. Information Fusion, 2016, 31: 100-109.
5. Huang J, Ma Y, Fan F, et al. "A scene-based nonuniformity correction algorithm based on fuzzy logic." Optical Review 22.4 (2015): 614-622. 
6. Fan F, Ma Y, Huang J,* et al. "A combined temporal and spatial deghosting technique in scene based nonuniformity correction." Infrared Physics & Technology 71 (2015): 408-415.
7. Huang, J., Ma, Y., Zhou, B., et al. "Processing method of spectral measurement using FP etalon and ICCD." Optics express 20.17 (2012): 18568-18578.
8. Liang, K., Ma, Y., Huang, J.*, et al. "Precise measurement of Brillouin scattering spectrum in the ocean using F–P etalon and ICCD." Applied Physics B 105.2 (2011): 421-425. 
9. Liu C, Ma J, Ma Y, Huang J et al. Retinal image registration via feature-guided Gaussian mixture model[J]. JOSA A, 2016, 33(7): 1267-1276. 
10. Li C, Ma Y, Huang J, et al. GBM-Based Unmixing of Hyperspectral Data Using Bound Projected Optimal Gradient Method[J]. 2016.
11. J. Han, Y. Ma, J. Huang, X. Mei and J. Ma, "An Infrared Small Target Detecting Algorithm Based on Human Visual System," in IEEE Geoscience and Remote Sensing Letters, 13.3(2016), 452-456
12. Zhou, B., Fan, Q., Ma, Y., Yao, Y., Li, H., Huang, J., & Liang, K. Experimental analysis on the rapid measurement of a high precision Brillouin scattering spectrum in water using a Fabry–Pérot etalon[J]. Laser Physics Letters, 2016, 13(5): 055701.
13. Li C, Ma Y, Huang J, et al. "Hyperspectral image denoising using the robust low-rank tensor recovery." JOSA A 32.9 (2015): 1604-1612.
14. Mei, X., Ma, Y., Li, C., Fan, F., Huang, J., & Ma, J. "A Real-Time Infrared Ultra-Spectral Signature Classification Method via Spatial Pyramid Matching." Sensors 15.7 (2015): 15868-15887.
15. Mei, X., Ma, Y., Fan, F., Li, C., Liu, C., Huang, J., & Ma, J. Infrared ultraspectral signature classification based on a restricted Boltzmann machine with sparse and prior constraints[J]. International Journal of Remote Sensing, 2015, 36(18): 4724-4747.
16. Ma, Y., Li, H., Gu, Z., Ubachs, W., Yu, Y., Huang, J., et al. "Analysis of Rayleigh-Brillouin spectral profiles and Brillouin shifts in nitrogen gas and air." Optics express 22.2 (2014): 2092-2104.
17. Ma, Y., Yu, Y., Li, H., Huang, J., et al. "Accurate measurement of high resolution spectrum obtained by F–P etalon and ICCD." Applied Physics B 116.3 (2014): 575-584.
18. Ma, Y., Li, H., Yu, Y., Yao, Y., Fang, Y., Zhou, B., Huang, J. , et al. "Experimental analysis on calibration of instrument broadening in a lidar system with Fabry–Perot etalon." Journal of Modern Optics 60.21 (2013): 1967-1975.
19. Liang, K., Ma, Y., Yu, Y., Huang, J., et al. "Research on simultaneous measurement of ocean temperature and salinity using Brillouin shift and linewidth." Optical Engineering 51.6 (2012): 066002-1.
20. Yu, Y., Ma, Y., Li, H., Huang, J., et al. "Simulation of simultaneously obtaining ocean temperature and salinity using dual-wavelength Brillouin lidar." Laser Physics Letters 11.3 (2014): 036001.
 
专利
1. 基于光谱抽样直方图的超光谱降维匹配方法及系统,专利号:ZL  201410584276.9
2. 一种面向超光谱数据库的小波去噪算法,专利号:ZL 201410510422.3
3. 用于目标识别的红外超光谱信号处理方法、处理机及系统,专利号:ZL 201410700672.3
4. 法布里珀罗干涉圆环图像处理方法,专利号:ZL 201310285640.7 
5. 基于双平台直方图的红外图像自适应增强方法,专利号:ZL201110370520.8 
6. 扫描型红外成像系统的非均匀校正方法,专利号:ZL201110312154.0
7. 多气象参数同步测量激光雷达,专利号:ZL201120525536.7 
8. 一种通过长短积分控制实现红外图像增强的方法,专利号:ZL201010502552.4
9. 适用于高帧率大面阵红外探测器的实时红外图像处理系统,专利号:ZL201010502547.3
10. 基于频谱特征信号的多气象参数同步测量方法及激光雷达,专利号:ZL201110178286.9
其它:
获奖情况:

(1)高帧频、大面阵红外成像关键技术及装备,教育部高等学校科学研究优秀成果奖(技术发明)二等奖,2014
(2)高性能红外成像关键技术研究及其应用,湖北省科学技术奖(科技进步奖)一等奖,2013
 

主要社会及学术兼职:

Infrared Physics & Technology 审稿人

所带研究生情况:  


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