[SONG, Wei 宋伟, SONG, Wei 宋伟, FU, Jin 伏进, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, GAN, Jianfeng 甘建峰, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, GAN, Jianfeng 甘建峰, WANG, Yuping 王玉平, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, GAN, Jianfeng 甘建峰, WANG, Yuping 王玉平, ZHANG, Jiaqi 张家齐, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, GAN, Jianfeng 甘建峰, WANG, Yuping 王玉平, ZHANG, Jiaqi 张家齐, HU, Haijun 胡海军, SONG, Wei 宋伟, FU, Jin 伏进, WU, Gaolin 吴高林, ZHOU, Qing 周庆, DENG, Bangfei 邓帮飞, WAN, Lingyun 万凌云, XIAO, Qianbo 肖前波, ZHANG, Haibing 张海兵, ZHANG, Ying 张盈, ZHANG, Wenjie 张文杰, GAN, Jianfeng 甘建峰, WANG, Yuping 王玉平, ZHANG, Jiaqi 张家齐, HU, Haijun 胡海军, LIANG, Haipeng 梁海鹏] No. 80 Middle Huangshan Road, Northern New District 中国重庆市北部新区黄山大道中段80号, Chongqing 401123Chongqing 401123;No. 86 West Chang'an Street, Xicheng District 中国北京市西城区西长安街86号, Beijing 100031Beijing 100031;Room 9A, Tongfang Building, Langshan Road, Nanshan District 中国广东深圳南山区朗山路11号同方信息港C栋9A, Guangdong 518057Shenzhen, Guangdong 518057 Provided are a meter data read method and system, the method comprising: after a current data image of a meter to be read is obtained, controlling the current data image to rotate in a first direction, and obtaining current projection values on a vertical direction of a meter pointer in the current data image; then, selecting a maximum projection value from the obtained projection values, determining a position of the meter pointer corresponding thereto as a position to be calculated; after a first rotation angle that needs to be rotated by the meter pointer when the meter pointer rotates to the position to be calculated is calculated, substituting the first rotation angle into a pre-stored first calculation formula, calculating a first angle between the meter pointer and the position to be calculated; then, substituting the first angle into a correspondence relationship between an angle between a pre-stored meter pointer and the position to be calculated and meter graduation, calculating a current meter data of a meter to be read, thus guaranteeing the precision of the obtained data under various circumstances.

[LI, Jian'an 励建安, LI, Jian'an 励建安, QIN, Hongping 秦宏平, LI, Jian'an 励建安, QIN, Hongping 秦宏平, ZHANG, Qingjun 张庆军, LI, Jian'an 励建安, QIN, Hongping 秦宏平, ZHANG, Qingjun 张庆军, PENG, Jiaqi 彭家启, LI, Jian'an 励建安, QIN, Hongping 秦宏平, ZHANG, Qingjun 张庆军, PENG, Jiaqi 彭家启, ZHOU, Yong 周勇, LI, Jian'an 励建安, QIN, Hongping 秦宏平, ZHANG, Qingjun 张庆军, PENG, Jiaqi 彭家启, ZHOU, Yong 周勇, WU, Chengsong 吴成松] No.1, Medicine Lane, Renmin Road, Xinpu District 中国江苏省连云港市新浦区人民路制药巷1号, Jiangsu 222000Lianyungang, Jiangsu 222000 A portable bladder pressure trainer, comprising a pressure trainer body (1) and a disposable urination connecting pipe. The pressure trainer body (1) comprises a shell (6); a display screen is disposed on the front surface of the shell (6); a pipe joint (7) connected to a pressure measurement catheter (3) is disposed at the top of the shell (6); a first pressure sensor (9) is disposed in the shell (6), and is connected to the pipe joint (7) through a pressure measurement pipe (8); a urine receiving pipe positioning groove (14) is formed on at least one side of the shell (6); a stop valve of a urine receiving pipe (5) is disposed in the urine receiving pipe positioning groove (14). According to the bladder pressure trainer, the pressure trainer body and the disposable urination connecting pipe are used in cooperation; during training, the urine receiving pipe of the urination connecting pipe is closed by the pressure trainer body so as to enable the pressure trainer body to be communicated with the bladder, pressure in the bladder is detected by means of the pressure sensor, urine is stored, and the urine receiving pipe is opened to discharge the urine when the pressure in the bladder reaches a set value; urine storage and discharging functions of the bladder are repeatedly trained in such a manner, so that a treatment effect is achieved.

[PEI ZHAOBIN, PENG XUMEI, ZHU XIAODAN, LIN YAN, PEI QIANTONG, PENG SIYANG, SHAN DESAI, GUO XINLI, SUN CEN, WU WEI, QU YANAN, LIU YANG, WANG LILI, ZHANG WENFENG, GUAN WEIWEI, XU LING, SHAO HONGRUN, QU JING, CHEN YU, ZHANG TONG, ZHANG HONGYAN, GU JIEWEN, LIU ANNING, LI YAN, LIN QIAO, ZHAI SHUYING, JIANG YIPENG, XIANG JINGZUO, YAN TIANMEI, CAI SHIWEI, GEGEN QIRI, WU JIAQI, WANG LUBIN, ZHONG YUAN, QU RUI, ZHAO YUZHE, DUAN QIONG, CONG LIN, ZHANG ANQI, HONG JIE, WU HUIYUN, WEI YUWEN, LI TIANTIAN, LIU ZHENG, NING QIANYUN, HUANG RONGHUA] CN

[PEI, Zhaobin 裴兆斌, PENG, Xumei 彭绪梅, ZHU, Xiaodan 朱晓丹, LIN, Yan 蔺妍, PEI, Qiantong 裴谦同, PENG, Siyang 彭思痒, SHAN, Desai 单德赛, GUO, Xinli 郭昕黎, SUN, Cen 孙岑, WU, Wei 吴蔚, QU, Yanan 曲亚囡, LIU, Yang 刘洋, WANG, Lili 王黎黎, ZHANG, Wenfeng 张文锋, GUAN, Weiwei 官玮玮, XU, Ling 徐玲, SHAO, Hongrun 邵宏润, QU, Jing 曲静, CHEN, Yu 陈瑜, ZHANG, Tong 张彤, ZHANG, Hongyan 张红艳, GU, Jiewen 顾洁文, LIU, Anning 刘安宁, LI, Yan 李艳, LIN, Qiao 林俏, ZHAI, Shuying 翟姝影, JIANG, Yipeng 姜昳芃, XIANG, Jingzuo 相京佐, YAN, Tianmei 晏天妹, CAI, Shiwei 蔡诗巍, GEGEN, Qiri 格根其日, WU, Jiaqi 吴佳琦, WANG, Lubin 王录彬, ZHONG, Yuan 钟媛, QU, Rui 曲芮, ZHAO, Yuzhe 赵宇哲, DUAN, Qiong 段穷, CONG, Lin 丛林, ZHANG, Anqi 张安琪, HONG, Jie 洪洁, WU, Huiyun 吴惠允, WEI, Yuwen 韦钰雯, LI, Tiantian 李田田, LIU, Zheng 刘政, NING, Qianyun 宁倩云, HUANG, Ronghua 黄荣华] Peizhaobin 中国辽宁省大连市沙河口区黑石礁街52号裴兆斌, Liaoning 116023#52.Heishijiao Street, Shahekou District,Dalian, Liaoning 116023 A coastline change identification method based on multiple factors. A coastline change, a NDVI, and subsidence evolution are used as variable influence factors along with time; in combination with a substitution method of multiple variables, modeling is performed on the problems related to a complex environment system, and inaccurate and subjective concepts are eliminated; the potential of utilizing remote sensing data in geographic information is fully mined; and complex behaviors of local dynamics are displayed, so that useful and substantive information is added to comprehensive management of environmental problems and coastal zones.

[Changgang WU, Xuhui PENG, Jiaqi KANG, Xiaoxia HONG, Zhe PIAO, Yiwei WU, Pan JIN, Zhen WU] CN Xiamen An array substrate, a method for manufacturing an array substrate, a display panel and a display device are provided. The array substrate includes a substrate; an insulating layer arranged at a side of the substrate, where the insulating layer is provided with an opening, the insulating layer includes a first area and a second area, a thickness of the first area is less than a thickness of the second area, and the first area is arranged around at least a part of the opening; and a first conductive part arranged at a side of the insulating layer away from the substrate, where an orthographic projection of the first conductive part on the substrate and an orthographic projection of the first area on the substrate are at least partially overlapped.

[WU, Jiaqi 吴家祈, WU, Yingzhuo 吴颖卓] {Room 609-2, Floor 6, Building 2, Yineng International Plaza, No. 2, Guilan North Road, Guicheng Street, Nanhai District 中国广东省佛山市南海区桂城街道桂澜北路2号亿能国际广场2座6层609之二, Guangdong 528200Foshan, Guangdong 528200;CN CN(CN)(CN)} The present invention relates to a self-adaptive back width structure, comprising a base plate connected to a back surface of a backpack. Multiple matching supporting assemblies are arranged corresponding to a human back on the side of the base plate distant from the backpack, and each supporting assembly comprises a movable block and a protective block fixedly arranged on the movable block. Each movable block is movably connected forwards and backwards to the base plate by means of a guide assembly, and elastic components are arranged between the movable blocks and the base plate, the elastic components being used for enabling the movable blocks to move away from the base plate. The self-adaptive back width structure of the present invention has a compact structure and is lightweight overall. The supporting assemblies enable the movable blocks and the protective blocks to move forwards and backwards a certain distance by means of the action of the elastic components according to the degree to which the human back presses against the base plate during use by people, so as to automatically adapt to the human back, thereby relieving and dispersing stress when the backpack is worn by people and protecting human spines and back muscles.

[JIAMING ZHAO, CHUNNING JING, XIA ZHAO, YUXIANG WU, DAISHUN HUANG, LIANG DING, CHANGMING QU, PEI YU, LI PENG, DANFENG HAO, YONGZHONG WU, CHANGYUE LI, YANG LU, YEMIN DONG, JIAQI PAN] CN A stepwise pressure relief device, comprising a steam intake pipeline, a silencing module and a heat recovery module. The steam intake pipeline comprises a first pipeline and at least two discharge pipelines, wherein the first pipeline is in communication with the silencing module and the heat recovery module, and the at least two discharge pipelines are respectively in communication with both the heat recovery module and the atmosphere. The silencing module is in communication with the heat recovery module and the atmosphere, and the heat recovery module is in communication with the atmosphere and users. A steam generator secondary-loop heat sink system, which has a steam delivery and pressure relief pipeline containing a stepwise pressure relief device. By means of the stepwise pressure relief device and the steam generator secondary-loop heat sink system, the economy, and the economy and safety of a power plant can be improved.

[CHI, Xingde 迟星德, WANG, Lu 王璐, GE, Jun 葛骏, WU, Zhehui 吴哲惠, LI, Rong 李榕, WANG, He 王鹤, XU, Congqiang 徐从强, YU, Jian 于健, CAO, Qianwen 曹千文, YUAN, Xiao 袁骁, WU, Xinwan 吴歆婉, SU, Zhiwei 苏智威, ZHUANG, Jiaqi 庄家琦, YANG, Su 杨溯] Room 403, East Block 2, SEG Park 中国广东省深圳市福田区振兴路赛格科技园2栋东403室, Guangdong 518000Zhenxing Road, Futian DistrictShenzhen, Guangdong 518000 A contact matching method comprises the steps of: acquiring a first tag of interest corresponding to a contact to be matched, and a second tag of interest corresponding to other contacts than the contact to be matched in a matching interface (S10); comparing the acquired first and second tags of interest to acquire at least one contact matched with the contact to be matched (S20); and on the basis of a preset first display mode, displaying, in the matching interface, a first contact identification corresponding to the contact to be matched and a second contact identification corresponding to each of the matched contacts, or on the basis of the preset first display mode, displaying, in the matching interface, the second contact identification corresponding to each of the matched contacts (S30). Also involved is a contact matching device. The efficiency and accuracy in contact matching are improved. A contact matching method comprises the steps of: acquiring a first tag of interest corresponding to a contact to be matched, and a second tag of interest corresponding to other contacts than the contact to be matched in a matching interface (S10); comparing the acquired first and second tags of interest to acquire at least one contact matched with the contact to be matched (S20); and on the basis of a preset first display mode, displaying, in the matching interface, a first contact identification corresponding to the contact to be matched and a second contact identification corresponding to each of the matched contacts, or on the basis of the preset first display mode, displaying, in the matching interface, the second contact identification corresponding to each of the matched contacts (S30). Also involved is a contact matching device. The efficiency and accuracy in contact matching are improved.

[WU, Yaodong, SHAN, Jiaqi, SHEN, Ximing, WU, Chunxia, HUANG, Binnan] CN,Yuhang District Hangzhou Zhejiang 311121,801-817 Building F 1378 Wenyiwest Road;CN,Yuhang Economic & Technology Development District Hangzhou Zhejiang 311100,36 Linping Avenue; The invention provides gemcitabine derivatives shown in the following formula (I) and preparation methods thereof. The invention further relates to a pharmaceutical composition which comprising the said gemcitabine derivatives in an effective amount and a pharmaceutically acceptable excipient or additive. The invention further provides use of the said derivatives for preparing anti-tumor drugs. The compound designed by the invention is novel in structure and has a remarkable anti-tumor activity. According to the compound designed by the invention, the preparation starting materials have extensive sources and are easily obtained, the preparation method is simple and easy to operate, and the yield of the product is high, so that industrial production on a large scale is facilitated.

[Liyun Kong, Jiaqi Wang, Yan Liu, Min Wu, Lijuan Shi, Rui Zhang, Menglu Wu, Guoli Li, Feifei Qi, Le Ma] CN Xi'an A method for simultaneously determining fat-soluble vitamins and carotenoids in serum, and belonging to the technical field of analytical chemistry, includes an ionic liquid (IL) or a binary mixed solvent composed of an IL and another solvent is adopted as an extractant; the biological samples are pre-treated by liquid-liquid extraction (LLE) and then detected by high-performance liquid chromatography (HPLC); retinyl acetate and trans-β-apo-8′-carotenal are adopted as the internal standards for fat-soluble vitamins and carotenoids, respectively; and the internal standard method is adopted to establish standard curves for quantification based on the retention time and the UV-Vis absorption spectrum. Compared with the existing methods, in the disclosure, the pretreatment process is simple and easy to be conducted, the sample can be prepared in a short time, and the toxic and harmful organic solvent is used at a reduced amount.