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Automatic Classification of Dayside Aurora in All-Sky Images Using A Multi-Level Texture Feature Representation Shenmiao Han1, a, Zhensen Wu1, b, Guangli Wu1, c and Jun Tan2, d 1School of Science, Xidian University, Xi’an, 710071, China 2Department of Radiology, University of Pittsburgh, Pittsburgh, PA, 15213, USA ashenmiaohan504@163.com, bwuzhs@mail.xidian.edu.cn, cguangliwu@126.com, djuntan@ieee.org Keywords: aurora, wavelet decomposition, gray level co-occurrence matrix, run-length, support vector machine.
Data and materials The dayside aurora images used in this paper were obtained from Chinese Arctic Yellow River Station (YRS), Ny-Ålesund, Svalbard.
References [1] Ayukawa, M. and Makita, K., “Characteristics of polar cap aurora,” Journal of Atmospheric and Terrestrial Physics 58, 1885-1894 (1996)
[3] Wang, Q., Liang, J., Hu, Z.J., Hua, H.H., Zhao, H., Hu, H.Q., Gao, X. and Yang, H., “Spatial texture based automatic classification of dayside aurora in all-sky images,” Journal of Atmospheric and Solar-Terrestrial Physics 72, 498–508 (2010)

*This work was supported by the NSFC (10771087, 61078040) and the science and technology project of Guangdong province (2007A020905001, 2009B030801239).
Materials, Instrument, Measurement Method and Model Evaluation Indicators 50 samples of human whole blood were collected.
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On March 29, 2007, organized and guided by The Ministry of Science and Technology, 11 regions and industry productivity centers promoted the China Union of international industrial subcontracting and partnership exchange (CSPX).
Meanwhile, inside the network platform, build a search engine system to enable member companies authorized through the internet, realize of supply and demand information dissemination, and obtain the necessary order information, training materials, exhibition information, and survey of the regional industry reports or other resources.
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Owing to these properties, ZnO can be used as UV or blue emitting materials.
Acknowledgments The authors are grateful for the financial support by the Provincial Natural Science Foundation of Shandong (Y2008A21, ZR2009FZ006), the Doctor Foundation of University of Jinan (XBS0833, XBS0845).
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Acknowledgements This work was supported by the National Natural Science Foundation of China under Grant No. 10972199 and 51109178.
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Experimental 2.1 Materials The high-sulfur coal used in this work was obtained from the Shijiazhai mine located in the east of Yunnan province of China.
Fig. 4 Experimental flowsheet Ⅲ of the closed circuit flotation References [1] Puja Khare, B.P.Baruah, Chemometric analysis of trace elements distribution in raw and thermally treated high sulphur coals, Fuel Processing Technology 91 (2010) 1691–1701 [2] Travis Thorns, Developments for the precombustion removal of inorganic sulfur from coal, Fuel Processing Technology 43 (1995) 123- 128 [3] Xu Longjun, Peng Tiefeng, Zhang Dingyue, et al., Fractal desulfurization kinetics of high-sulfur coal, International Journal of Mining Science and Technology 22 (2012) 111–114 [4] Jiqing Huang, Zongqing Bai, Zhenxing Guo, et al., Effects of chromium ion on sulfur removal during pyrolysis and hydropyrolysis of coal, Journal of Analytical and Applied Pyrolysis (2012), http://dx.doi.org/10.1016/j.jaap.2012.04.011

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As the only nonlinear optical material which can be used in ICF, KDP crystal has wide application[3].
Table 1 Parameters of Repairing Experiment Work piece Material Profile Diameter [µm] Profile Depth [µm] Tool Size [mm] Spindle Speed [r/min] Feed Velocity [mm/s] KDP 600 25 Φ0.5 60000 0.2 After repairing, the profile and surface is observed by VHX-1000E optical microscope as shown in Fig. 7.
Acknowledgements The authors gratefully acknowledge both the National Natural Science Foundation of China (No. 51275113) and National Major Numerical Control Project (No.2013ZX04001000-215) for their financial supports of this work.
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Microbiological Corrosion of Underground Sewage Facilities of Saint Petersburg (2013) World Applied Sciences Journal, No. 23, pp. 184–190
Effect of mixture design parameters and wetting-drying cycles on resistance of concrete to sulfuric acid attack (2007) Journal of Materials in Civil Engineering, 19(2), pp. 155–163

Introduction The Kuroshio acts as a conveyor transports huge amount of water mass and heat poleward, together with variety of dissolved materials such as nutrients, and has a significant influence on climate change and marine ecosystem around its path.
Acknowledgements This work was supported by the National Natural Science Foundation of China (41176021, 41276028 and 41321004), the National Basic Research Program of China (2011CB409803 and 2012CB956004) and the Open Fund of Key Laboratory of Marine Ecosystem and Biogeochemistry, SOA (LMEB201107).
Csanady (1991): Nutrient transport and mixing in the Gulf Stream, Journal of Geophysical Research, 96, 2577–2583
Chinese Journal of Oceanology and Limnology, 12, 220-227