LIFT
LIFT的相关文献在2000年到2022年内共计126篇,主要集中在自动化技术、计算机技术、航天(宇宙航行)、肿瘤学
等领域,其中期刊论文102篇、专利文献24篇;相关期刊72种,包括结直肠肛门外科、电梯工业、中国电梯等;
LIFT的相关文献由235位作者贡献,包括MIAO Shanshan、伊塔·佩莱德、兹维·科特勒等。
LIFT
-研究学者
- MIAO Shanshan
- 伊塔·佩莱德
- 兹维·科特勒
- 张新汉
- 李增华
- 李广伟
- 耿跃杰
- 董学勇
- 迈克尔·泽诺
- Donghui Jiang
- Guangli Kuang
- HU Lanyue
- Hangwei Ding
- M·瑞欧
- Pengcheng Huang
- REN Yueming
- Shili Jiang
- Wenge Chen
- Xiangyu Cheng
- Xinxing Qian
- Yan Zhang
- Z·寇特勒
- 冯华
- 冯新凯
- 加里·阿鲁季诺夫
- 吴本升
- 孙建洁
- 孙薛亮
- 张世权
- 文科
- 李佐
- 李澜涛
- 林宗芳
- 梁万国
- 洪成强
- 熊民权
- 王晓鹏
- 王涛
- 缪龙
- 胡纲
- 蒋晓倩
- 赵宗盛
- 邹小林
- 钟伟
- 陈怀熹
- 高向东
- 高攀
- Alex Nkengne
- Amrita Iyer
- Bhaskar Kura
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郑凯;
曹国令;
陈思亮
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摘要:
目的 研究括约肌间瘘管结扎术(LIFT术)加瘘道隧道切除术在低位单纯性肛瘘的临床效果.方法 将2019年9月至2020年12月收治的49例低位单纯性肛瘘患者根据自愿分为对照组和试验组,其中试验组23例,对照组26例.对照组采用肛瘘切除术治疗,试验组采用LIFT加瘘道隧道切除术治疗,通过3个月随访,对围术期指标、术后并发症、愈合情况方面进行分析、比较.结果 试验组的术后7天、14天创面疼痛(VAS)评分、创面大小、愈合时间、总的并发症发生率低于对照组(P0.05).结论 LIFT加瘘道隧道切除术治疗低位单纯性肛瘘创面小愈合快、出血少、痛苦小并发症低,不损伤括约肌,肛门功能良好值得临床推广应用.
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张强;
战柯柯
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摘要:
为了提高电力电子电路故障预测的准确性和快速性,对所采用的故障特征性能参数利用LIFT保真去噪法进行处理,并根据数据特征划分多个数据窗口,利用长短记忆神经网络LSTM对DC-DC电路特征性能参数达到 自适应预测.预测时可自动调整窗口的大小,找到最优的训练集个数,使得预测精度最高.以DC-DC电路中的boost电路为例,以输出电压作为监测信号,并计算特征参数Upp和Uave.根据电路性能设定电压阈值,分别建立基于自适应数据窗的LSTM故障预测模型和基于自适应数据窗的LITF-LSTM故障预测模型,通过对比分析预测结果,充分说明LITF-LSTM预测模型的有效性,最后分析预测数据是否达到所设阈值来判断电路在未来时刻是否发生故障.
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Mitch Leslie
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摘要:
On 19 April 2021,its twin rotors stirring the wispy Martian atmosphere,Ingenuity,the National Aeronautics and Space Administration(NASA)miniature helicopter,lifted off the surface of the Red Planet[1].Built by NASA’s Jet Propulsion Laboratory in California,the 0.5 m tall craft did not perform any fancy aerobatics.It climbed to an altitude of 3 m,hovered,turned 96,and then landed.But the 39 s flight was remarkable because it was the first by an aircraft on a planet other than Earth[1].
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Qiang FU;
Yuhang YANG;
Xiangyang CHEN;
Yalin SHANG
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摘要:
Dear editor,The flapping-wing aerial vehicle is a type of bionic robot imitating the flight of birds and insects that generates lift and thrust through the active movement of wings [1].Its bionic shape has unique advantages in reconnaissance missions [2].The areas that flapping-wing aerial vehicles need to navigate during their flights may be highly complex and uncertain.
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HU Lanyue
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摘要:
A LM-4 B carrier rocket lifted off from the Taiyuan Satellite Launch Center at 11:23 Beijing time on September 27, launching two environmental monitoring satellites(HJ-2 A and HJ-2 B) into their preset orbits. The HJ-2 A and HJ-2 B, two optical remote sensing satellites, will replace the previous operating satellites HJ-1 A and HJ-1 B, providing services in the areas of environmental protection, natural resources, water conservancy, agriculture and forestry.
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CHEN Xuewei;
JIN Yihui
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摘要:
At 13:40 Beijing time on September 21, 2020, a LM-4 B launch vehicle lifted off from the Jiuquan Satellite Launch Center, successfully deploying the Haiyang 2 C(HY-2 C) satellite into orbit. This launch mission also implemented a verification test for controlling the impact zone of the first stage rocket debris by a flight based on the grid fins system. It was the second onboard flight verification test since the first successful flight test with the launch mission of LM-4 B deploying GF-7 on November, 2019.
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LIU Yan
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摘要:
At 12:01 Beijing time on August 6, a LM-2 D carrier rocket lifted off from the Jiuquan Satellite Launch Center, launching the Gaofen 9-04 satellite and a Tsinghua science satellite into orbit with success.The Gaofen 9-04 satellite is an optical remote sensing satellite, which was developed by the DFH Satellite Co., Ltd. of CAST.
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Yan Zhang;
Xiangyu Cheng;
Pengcheng Huang;
Donghui Jiang;
Shili Jiang;
Xinxing Qian;
Hangwei Ding;
Guangli Kuang;
Wenge Chen
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摘要:
Lift force of an asymmetric capacitor in arbitrary shape still cannot be precisely calculated. For an irregular surface of a general asymmetric capacitor of which electric charge is nonuniformly distributed, we dedicate effort to filling the gap of lift force calculation problem. Through theoretical derivation, a general formula result is achieved. By applying theoretical formula combining with experimental method based on similarity principle of dimensional analysis, we can almost figure out all types of lift force of asymmetric capacitor. It is really an exciting method which can universally solve the hard thrust force calculation problem completely.