[QIAN, Qian 钱谦, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, WANG, Zhihui 王志会, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, WANG, Zhihui 王志会, CHEN, Shuai 陈帅, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, WANG, Zhihui 王志会, CHEN, Shuai 陈帅, TANG, Taoliang 唐滔良, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, WANG, Zhihui 王志会, CHEN, Shuai 陈帅, TANG, Taoliang 唐滔良, CHEN, Lei 陈磊, QIAN, Qian 钱谦, KIM, Heecheol 金熙哲, ZHANG, Zhi 张智, WANG, Zhihui 王志会, CHEN, Shuai 陈帅, TANG, Taoliang 唐滔良, CHEN, Lei 陈磊, CHEN, Gang 陈刚] No.10 Jiuxianqiao Rd., Chaoyang District 中国北京市朝阳区酒仙桥路10号, Beijing 100015Beijing 100015;No.5-12 Yunhan RD, Shuitu Hi-Tech Industrial Zone, Bei Bei Qu 中国重庆市北碚区水土高新技术产业园云汉大道5号附12号, Chongqing 400714Chongqing 400714 A touch control display panel and a drive method therefor, and a touch control display device. The touch control display panel, comprising a timing controller (TCON), and a first substrate (100) and a second substrate (200) arranged opposite to each other. The first substrate (100) comprises a base substrate and a common electrode (20) arranged on the base substrate. The first substrate (100) further comprises: a touch control switch unit (21), connected to the timing controller (TCON) via a touch control line (Gate_Touch), and controlling, under the control of a touch control signal on the touch control line (Gate_Touch), the access of the common electrode (20) to a touch control drive signal (Td) in a touch control time period; and a display switch unit (22), connected to the timing controller (TCON) via a display control line (Gate_com), and used for controlling, under the control of a display control signal on the display control line (Gate_com), the access of the common electrode (20) to a common electrode voltage signal (Vcom) in a display time period.

[TENG, Yun 滕云, TENG, Yun 滕云, XU, Meidong 徐美冬, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, JIANG, Lianqing 江连清, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, JIANG, Lianqing 江连清, BAI, Hua 白骅] 46 Waisha Road, 中国浙江省台州市椒江区外沙路46号, Zhejiang 318000Jiaojiang District,Taizhou city, Zhejiang 318000 Provided are a Streptomyces (Streptomyces hygroscopicus) HS7522 and a method for preparing milbemycin A4 by culturing the Streptomyces. The Streptomyces (Streptomyces hygroscopicus) HS7522 of the present invention is deposited in "China General Microbiological Culture Collection Center" with an accession number of CGMCC No.9671 on September 16, 2014.

[TENG, Yun 滕云, TENG, Yun 滕云, XU, Meidong 徐美冬, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, JIANG, Lianqing 江连清, TENG, Yun 滕云, XU, Meidong 徐美冬, MO, Meiyi 莫美依, HE, Zhihui 何志慧, CHEN, Zhengjie 陈正杰, JIANG, Lianqing 江连清, BAI, Hua 白骅] 46 Waisha Road, 中国浙江省台州市椒江区外沙路46号, Zhejiang 318000Jiaojiang District,Taizhou city, Zhejiang 318000 Provided are a Streptomyces (Streptomyces hygroscopicus) HS7523 and a method for preparing milbemycin A3 by culturing the Streptomyces. The Streptomyces (Streptomyces hygroscopicus) HS7523 is deposited in "China General Microbiological Culture Collection Center" with an accession number of CGMCC No.9672 on September 16, 2014.

[CHEN, Guanqiang 陈冠强, LU, Zhihui 卢志辉, LU, Zhihui 卢志辉, LIANG, Wenwei 梁文伟, LU, Zhihui 卢志辉, LIANG, Wenwei 梁文伟, CHEN, Qiyang 陈启扬] D9, Yinping Heights, Dagang Town, Nansha District 中国广东省广州市南沙区大岗镇银屏山庄D9, Guangdong 511470Guangzhou, Guangdong 511470 Disclosed is a cone crusher structure, which comprises a casing (1) arranged in an inverted cone shape and an upper crushing wall (2) mounted on the upper portion of the casing (1). A lower crushing wall (3) arranged in an inverted cone shape is arranged under the upper crushing wall (2). An eccentric shaft (4) is also arranged within the casing (1) for driving the lower crushing wall (3) to rotate eccentrically. The maximum inner diameter of the bottom portion of the upper crushing wall (2) is larger than the maximum outer diameter of the bottom portion of the lower crushing wall (3). The cone crusher structure is used in the fields of crushing devices. By processing the inner and outer diameters of the bottom portions of the upper crushing wall (2) and the lower crushing wall (3), the working area overlapped at the bottom portion of the upper crushing wall (2) and the bottom portion of the lower crushing wall (3) is increased, and the working space can be increased effectively. During use, working efficiency will not be substantially reduced due to the wearing between the upper and lower crushing walls, and the efficient operation can be maintained in long term.

[LI, Hongjing 李红京, LI, Hongjing 李红京, YAN, Jiasong 颜家松, LI, Hongjing 李红京, YAN, Jiasong 颜家松, CHEN, Zhihui 陈志辉, LI, Hongjing 李红京, YAN, Jiasong 颜家松, CHEN, Zhihui 陈志辉, CHEN, Yuanliang 陈远亮] 9th Floor, Bldg. B1, Zhiyuan 中国广东省深圳市南山区西丽街道学苑大道1001号智园B1栋9层, Guangdong 5180551001 Xueyuan Rd., Xili, Nanshan DistrictShenzhen, Guangdong 518055 An aircraft tracing method and system. The method comprises: gathering geographical location information of an aircraft and image data of an aircraft flight area (S11); establishing a corresponding relationship between the geographical location information and the image data which are gathered at a same moment (S12); transmitting the data having the established corresponding relationship; receiving the geographical location information and the image data having the established corresponding relationship at a receiving end (S21); drawing a flight path of the aircraft utilizing the geographical location information (S22); obtaining the geographical location information corresponding to a selected position in the flight path and displaying the image data corresponding to the geographical location information (S23). In this manner, the geographical location information corresponding to each frame image is added to video information by establishing the corresponding relationship between the geographical location information and the image data, thereby the geographical location corresponding to each frame video image can be conveniently obtained subsequently, providing a basis for tracing a route of the aircraft and monitoring the flight condition of the aircraft.

[Jianbin Qiu, Xiuxia Zhang, Yueqing Chen, Jianhong Chen, Minjiang Chen, Zhihui Chen, Zhenxing Zhang] CN Fuzhou, Fujian The present disclosure provides a synchronization system and method for a substation monitoring backend database, an SCD, and an RCD. The system includes: a synchronization token management unit, an SCD synchronization module, an RCD synchronization module, and a monitoring backend database synchronization module. The synchronization token management unit is configured to send or reclaim modification tokens, only at most one of which can exist at a time, and send a synchronization token.

[Jianbin Qiu, Xiuxia Zhang, Yueqing Chen, Jianhong Chen, Minjiang Chen, Zhihui Chen, Zhenxing Zhang] CN Fujian The present disclosure provides a synchronization system and method for a substation monitoring backend database, an SCD, and an RCD. The system includes: a synchronization token management unit, an SCD synchronization module, an RCD synchronization module, and a monitoring backend database synchronization module. The synchronization token management unit is configured to send or reclaim modification tokens, only at most one of which can exist at a time, and send a synchronization token.

[QIU, Jianbin 邱建斌, ZHANG, Xiuxia 张秀霞, CHEN, Yueqing 陈月卿, CHEN, Jianhong 陈建洪, CHEN, Minjiang 陈闽江, CHEN, Zhihui 陈志辉, ZHANG, Zhenxing 张振兴] No. 257 Wusi Road, Gulou District 中国福建省福州市鼓楼区五四路257号, Fujian 350003Fuzhou, Fujian 350003;4/F, Jiangsheng Building, No. 312, Middle Section Of Fuxing Road, Jinan District 中国福建省福州市晋安区福兴路中段312号江盛大厦四楼, Fujian 350013Fuzhou, Fujian 350013 Provided are a synchronization system and method for a monitoring background database, an SCD and an RCD of a substation. The system comprises: a synchronization token management unit, an SCD synchronization module, an RCD synchronization module and a monitoring background database synchronization module, wherein the synchronization token management unit is used for sending or recycling a modification token, at most one of which can be present at one moment, and for sending a synchronization token. By means of the provision of a "token", the correctness and the reliability of data synchronization are ensured. The correctness of data synchronization can reach 100 percent, and a time saving rate is more than 99 percent. Not only is the working efficiency greatly improved, the reliable and safe operation of a power grid is also ensured. The system is applied and popularized to achieve consistency between an SCD, an RCD and a monitoring background database and ensure the automatic joint debugging and the automatic inspection of a substation and a regulation and control main station.

[ZHANG, Tianxu 张天序, ZHANG, Tianxu 张天序, YAO, Heng 药珩, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, FAN, Sufei 凡速飞, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, FAN, Sufei 凡速飞, CHEN, Yimeng 陈一梦, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, FAN, Sufei 凡速飞, CHEN, Yimeng 陈一梦, MA, Wenxuan 马文绚, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, FAN, Sufei 凡速飞, CHEN, Yimeng 陈一梦, MA, Wenxuan 马文绚, HAO, Longwei 郝龙伟, ZHANG, Tianxu 张天序, YAO, Heng 药珩, JIANG, Peng 姜鹏, FAN, Sufei 凡速飞, CHEN, Yimeng 陈一梦, MA, Wenxuan 马文绚, HAO, Longwei 郝龙伟, YANG, Zhihui 杨智慧] No.1037, Luo Yu Road, Hongshan 中国湖北省武汉洪山珞喻路1037号, Hubei 430074Wuhan, Hubei 430074 A ground building recognition method comprises the following steps: (1) acquiring a ground infrared image by means of aerial photography; (2) performing detection and positioning in the infrared image to determine a suspected target; (3) aiming at the suspected target to perform laser imaging; (4) conducting range gating on the laser image to filter out foreground and background interference; and (5) extracting a shape characteristic of the suspected target from the laser image the interference of which has been filtered out, and using the shape characteristic as a target matching element to match with a target shape characteristic template, so as to recognize the target. Laser imaging is fused into infrared imaging target positioning, the advantage that the range of infrared imaging is large is used, three-dimensional distance information of laser imaging is also used, and the positioning precision of a building is effectively improved.

[SHAN ZHIHUI, HAO QINGNAN, CHEN HAIFENG, YANG YANYAN, ZHANG CHANJUAN, CHEN LIMIAO, YUAN SONGLI, CAO DONG, GUO WEI, ZHANG XIAOJUAN, CHEN SHUILIAN, YANG ZHONGLU, QIU DEZHEN, ZHOU XINAN, LIU QINGLI, BREITINGER BECKY WELSH, DONG SHUJIE] CN;CH;CN The present invention provides methods and compositions for identifying, selecting, and/or producing a soybean plant or germplasm resistant to Asian soybean rust using markers, genes and chromosomal intervals derived from Glycine max strain SX6907. Asian soybean rust resistant soybean seeds, plants, and germplasms are also provided.