Journal Publications
- [61]LIU Jinping, TANG Zhaohui.Adaptive intrusion detection via GA-GOGMM-based pattern learning with fuzzy rough set-based attribute selection[J].Expert Systems With Applications, 2019, 139
- [62]Tang ZhaoHui, DTCWT-based Zinc Fast Roughing Working Condition Identification[J].Chinese Journal of Chemical Engineering, 2018, 26 (8) : 1721-1726.
- [63]LIU Jinping, TANG Zhaohui.Characterization of Complex Image Spatial Structures Based on Symmetrical Weibull Distribution Model for Texture Pattern Classification[J]. UNITED STATES.Complexity, 2018, 2018
- [64]Tang ZhaoHui, Fuzzy Association Rule Based Froth Surface Behavior Control in Zinc Froth Flotation[J].Symmetry Basel, 2018, 10 (6) : 216.
- [65]LIU Jinping, TANG Zhaohui.Texture pattern classification based on probability density function estimation of the image spatial structure feature with symmetrical weibull distribution model[J]. NETHERLANDS.Multimedia Tools and Applications, 2018, 78: 12251–12279.
- [66]Tang ZhaoHui, Nonlinear modeling of the relationship between reagent dosage and flotation froth surface image by Hammerstein-Wiener model[J].Minerals Engineering, 2018, 120: 19-28.
- [67]Tang Zhao-hui.Interactive image segmentation with a regression based ensemble learning paradigm[J].Frontiers of Information Technology & Electronic Engineering, 2017, 18 (7) : 1002-1020.
- [68]Tang Zhahui, Selective Search and Intensity Context Based Retina Vessel Image Segmentation[J].Journal of Medical Systems, 2017, 41 (3)
- [69]ZHANG Jin, TANG Zhaohui.Recognition of flotation working conditions through froth image statistical modeling for performance monitoring.[J].Minerals Engineering, 2015, 86: 116-129.
- [70]LIU Jinping, TANG Zhaohui.Quality-Related Monitoring and Grading of Granulated Products by Weibull-Distribution Modeling of Visual Images with Semi-Supervised Learning[J]. SWITZERLAND.Sensors, 2016, 16 (998)
- [71]Jianyong Zhu, Huosheng Hu, Zhaohui Tang *, Weihua Gui, Jinping Liu.Machine Vision Based Production Condition Classification and Recognition for Mineral Flotation Process Monitoring.International Journal of Computational, 2013: 969-986.
- [72]LIU Jinping, TANG Zhaohui, Spatial-temporal Fusion for Flotation Froth Image Denoising Based on BLS-GSM Method in Curvelet Domain[J]. JAPAN.IEEJ TRANSACTIONS ON ELECTRICAL AND ELECTRONIC ENGINEERING, 2012, 2014 (9) : 31-38.
- [73]朱建勇, 唐朝晖*, 桂卫华, 刘金平.Spatial-temporal joint for froth image sequence denoising based on Curvelet transform[J], 28 (9) : 1322-1328.
- [74]杜金芳, 桂卫华, 陈青, 刘金平, 唐朝晖*.pH control in flotation process based on prediction model.控制理论与应用 (No. 7 Apr. 2013) : 885-890.
- [75]朱建勇, 唐朝晖*, 桂卫华, 刘金平.Dynamic bubble-size-distribution based health status analysis of reagent-addition in froth flotation process.控制理论与应用 (No. 4 Apr. 2013) : 492-502.
- [76]Liu Wenzhong, Xu Pengfei, Chen Qing, Zhang Jin, Tang Zhaohui*, Liu Jinping.Visual Perception-based Statistical Modeling of Complex Grain Image for Product Quality Monitoring and Supervision on Assembly Production Line[J].PLoS ONE
- [77]Jianqi Li, Jianyong Zhu, Chunhua Yang, Zhaohui Tang *, Weihua Gui, Jinping Liu.Recognition of the operational statuses of reagent addition using dynamic bubble size distribution in copper flotation process[J].Minerals Engineering (45) : (2013)128–141.
- [78]Xu Pengfei, Chen Qing, Tang Zhaohui, Liu Jinping*.Toward Automated Quality Classification via Statistical Modeling of Grain Images for Rice Processing Monitoring[J].International Journal of Computational Intelligenc
- [79]唐朝晖, 桂卫华, 刘金平.Analysis of the best production condition of cleaner froth in bauxite flotation process based on froth texture coarseness measurement[J].控制与决策, 28 (7)
- [80]Qing Chen, Zhaohui Tang *, Weihua Gui, Jinping Liu.Spatial-temporal Fusion for Flotation Froth Image Denoising Based on BLS-GSM Method in Curvelet Domain[J].IEEJ TRANSACTIONS ON ELECTRICAL AND ELECTRONIC ENG, 2014; 9: 31–38.
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Zhaohui Tang
 Zip Code:c576f0c85848a14d10428d1b79269fc7d68bde9ba6ecb95648b168a03671c3821c778c2bedf0cae5d03c95a065c3a5efa4243241acb9eb6089885db6f9f3fa7f5b7491eb5af48e7ab43d253e29e0fa6991b0af260ac98903cc7fbca150cb2fc86cb6bd41d95f78a263ba3d6f6aa504ee56cdd8693f2e6f13b576940cee3633de Postal Address:96a91f31afd28e915cb13edf01fa4e105c444db7eee96d9f28488989a952c11ff3811f0e3b22891af71951d0d1f7359c20710bf6499c797e5661c773e9b54e43bf78370a0382affd556b13515f4d2d121c3e36daecb943b83e08c72173cea99c61e3ca29f8dec0bb280328d6c70814264c2aedba2a5772bd3d4b61241e2fa00f Office Phone:bd94af64dda4ffe8a4e2a44bfc0533d57f386cec2b0e4c95f33cb80bcb8c88df0941ffc21a5417b3c188fd50daa5efe2b8c0d28702a72261c9f069df50e6cd047113fe9a24eea5778c823358f25f8f4ce4ff03aaf11e2c085f46299d3ffb0cbfba2a69d50f3a5157bdbaf64b37da69fb7337646ba95a503b0e5d93870c4ded76 Mobile:8d2ca7aae95cfbe7e3cd71985cac201ca5e0a9cb4be611ab38976ce2ed8102835f25f7d75d769f2481868792026861e0232f0f80b98a869cd2ac0bb3ac8fad8720f4315e32aba0a31afd5e01afa7d3e918793f7680f32c6c910291165b95b1288b045fdecc4a7b159772b72d7561fa7ed90d3b3a724483d03a6eb981c5517a2a Email:0c8930cd42fddfa062db4774ed357c0cca4525622ed22f9562cbe72b3aaf67261defb576516ab37b92d104d7d250fcb37b0c6053c4b3e2ae41de00ab1c4099d1808b0a708a4de57b03622bd928c3d631c3dd9033f616fed09d2dab8cb0587a5e629850ed78ba96f7065ecccf8df5bb896f1698f4aa1ea54c7ea56791b305fe04
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MOBILE Version
