Items where Author is "Zejun, Hu"
Group by: Item Type | No Grouping Jump to: Article Number of items: 7. ArticleFang, He and Zejun, Hu and Hongqiao, Hu and Dehong, Huang and Yao, Yu (2021) An introduction to the riometer system deployed at China-Iceland joint Arctic observatory and its beamforming correction method based on the preliminary data. Advances in Polar Science, 32 (3). pp. 248-260. Fang, He and Zejun, Hu and Hongqiao, Hu and Dehong, Huang and Yao, Yu (2021) A case study based on ground observations of the conjugate ionospheric response to interplanetary shock in polar regions. Advances in Polar Science, 32 (2). pp. 141-160. Fang, He and Hongqiao, Hu and Huigen, Yang and Beichen, Zhang and Dehong, Huang and Yonghua, Liu and Zejun, Hu and Jianjun, Liu (2016) Recent progress in Chinese polar upper-atmospheric physics research: review of research advances supported by the Chinese Arctic and Antarctic expeditions. Advances in Polar Science, 27 (4). pp. 219-232. Yonghua, Liu and Hongqiao, Hu and Huigen, Yang and Beichen, Zhang and Bo, Sun and Fuhai, Wei and Yang, Liu and Jianjun, Liu and Rui, Wang and Zhuotian, Chen and Zejun, Hu and Desheng, Han and Guitao, Shi and Zhengyi, Hu and Tao, Wang and Chunlei, An and Rose, Mike (2016) Chinese Antarctic Magnetometer Chain at the Cusp Latitude. Advances in Polar Science, 17 (2). pp. 102-106. Qian, Wang and Jimin, Liang and Zejun, Hu (2013) Auroral event detection using spatiotemporal statistics of local motion vectors. Advances in Polar Science, 24 (3). pp. 175-182. Zanyang, Xing and Huigen, Yang and Desheng, Han and Zhensen, Wu and Junming, Liu and Zejun, Hu and Qinghe, Zhang and Yonghua, Liu and Beichen, Zhang and Hongqiao, Hu (2012) Simultaneous optical and radar observations of poleward moving auroral forms under different IMF conditions. Advances in Polar Science, 23 (4). pp. 204-210. Qian, Wang and Qinghu, Meng and Zejun, Hu and Zanyang, Xing and Jimin, Liang and Hongqiao, Hu (2011) Extraction of auroral oval boundaries from UVI images: A new FLICM clustering-based method and its evaluation. Advances in Polar Science, 22 (3). pp. 184-191. |