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Excel中关于序列填充的几个难点解决
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作者 张山风 张晶晶 《办公自动化(综合月刊)》 2012年第4期47-48,共2页
Excel的序列填充功能十分强大,对提高我们的工作效率极其有效。但是在遇到某些大数值序列填充时会受到一定的限制,对工作造成了一定的困难。本文从遇到的具体问题出发,通过实例提出了相应的解决之道,值得借鉴。
关键词 序列填充 自定义 函数
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基于时间序列模型的黄河水沙通量的研究
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作者 许婷婷 谢小韦 冯再勇 《延安职业技术学院学报》 2024年第4期96-105,共10页
黄河作为中华民族的母亲河,它为中国人民提供了丰富的水资源和肥沃的土地,然而黄河的含沙量一直较高,给当地的生态环境和经济发展带来了很大的挑战。根据小浪底水文站近6年水沙含量的实际监测数据,来预测黄河含沙量与时间和含水量的关系... 黄河作为中华民族的母亲河,它为中国人民提供了丰富的水资源和肥沃的土地,然而黄河的含沙量一直较高,给当地的生态环境和经济发展带来了很大的挑战。根据小浪底水文站近6年水沙含量的实际监测数据,来预测黄河含沙量与时间和含水量的关系,为黄河治理和保护提供科学的理论依据。 展开更多
关键词 数据预处理 等差序列填充 归一化 时间序列 相关系数
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一种最长扩展公共子序列新算法
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作者 王前东 《电讯技术》 北大核心 2024年第8期1307-1314,共8页
在最长填充公共子序列问题中提出一种新问题:假设有一个完整序列C和一个不完整序列Q,长度分别为m和n,Q中丢失的元素为相邻的相同元素,要求寻找一个丢失前的序列Q,使得C和Q具有最长的公共子序列。针对此问题,首先将Q中每个元素复制m-1个... 在最长填充公共子序列问题中提出一种新问题:假设有一个完整序列C和一个不完整序列Q,长度分别为m和n,Q中丢失的元素为相邻的相同元素,要求寻找一个丢失前的序列Q,使得C和Q具有最长的公共子序列。针对此问题,首先将Q中每个元素复制m-1个并插入Q中原来的位置,生成长度为mn的扩展序列Q^(*),然后证明了C和Q的最长扩展公共子序列是两序列C和Q^(*)的最长公共子序列,最后提出一种时空复杂度为O(mn)的最长扩展公共子序列求解新算法,并用轨迹实验证明了该算法对强噪声干扰和轨迹点丢失的同时有效性。 展开更多
关键词 最长公共子序列(LCS) 最长填充公共子序列(LFCS) 扩展公共子序列(ECS) 最长扩展公共子序列(LECS)
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用好Excel的序列填充功能 被引量:1
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作者 周黎平 《微电脑世界》 2005年第3期155-156,共2页
Excel的序列填充是一个非常实用的功能,但其中的一些细节和一些特殊情况下的填充您或许并不了解。
关键词 EXCEL软件 序列填充功能 数值型数据 自定义序列 含空行填充
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Word表格实现序列自动填充
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作者 马宪廷 《电脑应用文萃》 2005年第9期101-101,共1页
关键词 WORD 表格 序列自动填充功能 操作方法 文本批量填充
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3D自由呼吸Star VIBE序列在儿童腹部增强MR中的应用 被引量:10
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作者 杨凯华 陈志平 +1 位作者 尹世庚 郑彬 《中国医学影像技术》 CSCD 北大核心 2019年第4期601-604,共4页
目的探讨3D自由呼吸径向采集K空间放射填充容积内插成像(Star VIBE)序列在儿童腹部MR增强检查中的应用价值。方法对72例患儿采用超快速小角度激发(tfl)梯度回波序列及3D自由呼吸Star VIBE序列进行腹部增强MR扫描,对2种扫描序列得到的增... 目的探讨3D自由呼吸径向采集K空间放射填充容积内插成像(Star VIBE)序列在儿童腹部MR增强检查中的应用价值。方法对72例患儿采用超快速小角度激发(tfl)梯度回波序列及3D自由呼吸Star VIBE序列进行腹部增强MR扫描,对2种扫描序列得到的增强T1WI进行主观评分,并测量其SNR和CNR,比较2种图像的差异。结果 3D自由呼吸Star VIBE序列图像呼吸运动伪影、肝内血管和下腔静脉结构显示、胃肠道蠕动伪影、病灶清晰度和整体图像质量评分均高于tfl序列(P均<0.001)。3D自由呼吸Star VIBE序列的SNR为25.14(20.42,30.50),CNR为9.20(7.36,10.42),tfl序列的SNR为20.67(19.00,23.50),CNR为6.08(3.00,8.50);3D自由呼吸Star VIBE序列的SNR、CNR均高于tfl序列(P均<0.001)。结论 3D自由呼吸Star VIBE序列可明显减少儿童腹部增强MRI运动伪影,增加SNR和CNR,对于诊断儿童腹部病变具有重要临床应用价值。 展开更多
关键词 儿童 腹部 对比剂 径向采集K空间放射填充容积内插成像序列 图像质量 磁共振成像
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妙用EXCEL填充柄
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作者 林萍 《电脑》 2000年第10期59-59,共1页
关键词 表处理软件 EXCEL 填充 自动填充序列 菜单
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Excel实用操作技巧 被引量:4
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作者 于瑶瑶 《科技信息》 2008年第10期49-49,共1页
本文介绍了笔者在Excel的实际应用过程中总结的一些实用技巧。
关键词 EXCEL 实用技巧 双击 序列填充 隐藏
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千里姻缘&牵——巧用&字符输入多位编号
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作者 宋宪涛 《电脑应用文萃》 2004年第8期70-70,共1页
关键词 EXCEL 单元格 字符输入 填充序列功能
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Zircon SHRIMP U-Pb geochronology of the Neoproterozoic Chengjiang Formation in central Yunnan Province(SW China) and its geological significance 被引量:27
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作者 JIANG XinSheng WANG Jian +4 位作者 CUI XiaoZhuang ZHUO JieWen XIONG GuoQing LU JunZe LIU JianHui 《Science China Earth Sciences》 SCIE EI CAS 2012年第11期1815-1826,共12页
The Chengjiang Formation is the earliest continental clastic deposit after the Jinning Orogeny in central Yunnan Province,and therefore its accurate depositional age is significant for understanding the formation and ... The Chengjiang Formation is the earliest continental clastic deposit after the Jinning Orogeny in central Yunnan Province,and therefore its accurate depositional age is significant for understanding the formation and evolution of the Neoproterozoic rift basins in southern China.However,hampered by accuracy of the dating technique,the existing age data for the Chengjiang Formation are not very reliable.A large number of magmatic zircons were obtained from the tuff interbed in the lower part of the Chengjiang Formation in Jinyang area and the bottom part of the Chengjiang Formation in Dongchuan area,central Yunnan Province,and high-precision SHRIMP U-Pb dating was carried out on these zircons.The results show that the weighted mean 206 Pb/238 U ages are 797.8±8.2 and 803.1±8.7 Ma respectively.In combination with related geological evidence,it has been demonstrated that the bottom boundary age of the Chengjiang Formation should be 800±5 Ma,whereas the top boundary age could be ca 725 Ma.By synthetically analyzing the latest age data for the relevant strata,it has been confirmed that the Chengjiang Formation should be correlated with the Suxiong Formation and the Kaijianqiao Formation in western Sichuan Province,the Liantuo Formation in the middle and lower Yangtze,the Hongchicun Formation and the Shangshu Formation in northern Zhejiang Province,the Puling Formation in southern Anhui Province,the Luokedong Formation and the Majianqiao Formation in northwestern Jiangxi Province,the Wuqiangxi Formation in northwestern Hunan Province,the Fanzhao Formation and the Qingshuijiang Formation in southeastern Guizhou Province,and the Sanmenjie Formation and the Gongdong Formation in northern Guangxi Province.Sedimentary cycle analysis shows that the sedimentary filling sequence of the Neoproterozoic rift basins in southern China can be divided into four cycles.Among them,Cycle II began at ca.800 Ma,accompanied by intensive tectonic-thermal events.The zircon U-Pb ages from the bottom of the Chengjiang Formation reported in this paper indicate that the Neoproterozoic Kangdian rift subbasin probably started to develop at ca.800 Ma and therefore missed Cycle I of the Neoproterozoic sedimentary filling sequence in southern China. 展开更多
关键词 NEOPROTEROZOIC Chengjiang Formation zircon SHRIMP U-Pb age rift basin sedimentary cycle southern China
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Observation and implication of the paleo-cave sediments in Ordovician strata of Well Lundong-1 in the Tarim Basin
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作者 SUN Shu ZHAO WenZhi +3 位作者 ZHANG BaoMin LIU JingJiang ZHANG Jing SHAN XiuQin 《Science China Earth Sciences》 SCIE EI CAS 2013年第4期618-627,共10页
Well Lundong-1 is located in the periclinal area on the eastern flank of the Tahe-Lunnan paleo-uplift in the Tarim Basin. A 25-m-high cave fill sequence was observed in the Upper Ordovician interval of the well at 680... Well Lundong-1 is located in the periclinal area on the eastern flank of the Tahe-Lunnan paleo-uplift in the Tarim Basin. A 25-m-high cave fill sequence was observed in the Upper Ordovician interval of the well at 6800-6825m. A third cut of cores was obtained from the top of the cave. The following conclusions were obtained by studying the cave sediments and depositional sequence, and by undertaking paleontological and elemental geochemistry analyses. 1. The cave sediments contain abundant brachiopod, gastropod, echinoderm, ostracod, and acritach fossils, which can be classified into two groups: cave autochthonous and cave allochthonous fossils (from collapse breccia dissolution or transportation by underflow). The fossils indicate that the cave was formed before the Carboniferous and partly-filled and buried during Carboniferous resubsidence. 2. Elemental geochemistry shows that the mud that filled the cave is sourced from calcareous paleo-soil and weathered crust that came from a salty environment with poor water circulation. 3. The formation and evolution of the cave occurred in three stages. The first stage occurred after the deposition of the Late Ordovician Lianglitage Formation, the second stage took place after the deposition of the Late Ordovician Sangtamu Formation, and the last stage happened after Silurian deposition. Major dissolution occurred in the latter two stages as a result of bedding-confined deep underflow karstification. Based on the reconstruction of the cave formation history, favorable paleokarst targets can be predicted and estimated to aid paleogeography and paleokarstology studies. 展开更多
关键词 cave filling and depositional sequence cave autochthonous fossils cave allochthonous fossils bedding karst Well Lundong-1 Tarim Basin
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