feature concentration
- feature concentration的基本解释
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[计] 特征集合
- 相似词
- 更多 网络例句 与feature concentration相关的网络例句 [注:此内容来源于网络,仅供参考]
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The article starts with the basic conception of urban feature, makes contrast analysis with relevant fields of urban landscape, urban ecology, urban geography, urban aesthesis, clarifies the study subject and field of urban feature, relates the study with the specialty of urban feature study contents, and based on the probe of urban feature's characteristics of obscurity, certainty and duality of culture and form, puts forward with systematic analysis the conceptions of urban feature hiding factor, urban feature surfacing factor, urban feature core, urban feature mark, space structure core and times core, and sets up urban feature database.
论文首先从城市风貌的基本概念出发,通过与城市景观、城市生态、城市地理、城市美学等相关学科的对比分析,明确了城市风貌研究的对象和范畴,结合城市风貌研究内容的特殊性,在深入剖析了城市风貌的模糊性、确定性、文态与形态双重性等特征之后,运用系统分析的观点,提出了城市风貌潜态因子、城市风貌显态因子、城市风貌核、城市风貌符号、空间结构核、时间文态核等概念,在系统分析的基础上,建立了城市风貌信息数据库。
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The result showed that the best is Coreopsis drummondii, its semi-lethal concentration and limit concentration both reached as high as 1.4%; The next was Callistephus chinensis, its semi-lethal concentration was 0.6%, and its limit concentration was 1.2%; The middle was Althaea rosea, its semi-lethal concentration was 0.4%, and its limit concentration was 1.2%; The lower one was Rudbeckia hirta, its semi-lethal concentration was 0.4%, and its limit concentration was 1.0%.
结果表明:耐盐性最强的是金鸡菊,其耐盐半致死浓度和耐盐极限浓度高达1.4%;其次为翠菊,耐盐半致死浓度为0.6%,耐盐极限浓度为1.2%;耐盐力中等的是蜀葵,其耐盐半致死浓度为0.4%,耐盐极限浓度为1.2%;耐盐性最差的是黑心菊,耐盐半致死浓度为0.4%,耐盐极限浓度为1.0%。
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Var. pyramidalis is not positively correlated with ion concentration in growth environment, the capacity of selective absorption and transport of ions in Populus alba L. var. pyramidali under salt stress in drainage canal is higher than Populus alba L. var. pyramidal is of normal growth in irrigation canal. Under salt stress, the concentration of K(superscript +)、Na(superscript +) of roots and leave of Populus alba L. var. pyramidalis have changed, the concentration of K(superscript +) of roots and leave dropt the concentration of Na(superscript +) of roots markedly increased, the concentration of Ca(superscript 2+), Mg(superscript 2+) have slightly changed, the concentration of Ca(superscript 2+) of roots dropted, the concentration of Mg(superscript 2+) increased, the concentration of Ca(superscript 2+), Mg(superscript 2+) of leave increased.
主要结论为:新疆杨各器官的离子含量与生长环境中的离子浓度不存在正相关趋势;排渠盐胁迫下生长的新疆杨对离子选择吸收和运输的能力高于灌渠正常生长的新疆杨;盐胁迫下,新疆杨根和叶中K、Na的浓度发生了明显的变化,K浓度在根和叶中呈下降趋势,Na浓度在根中明显增加,根和叶中Ca(上标 2+)、Mg(上标 2+)浓度的变化趋势略缓,根中Ca(上标 2+)浓度下降,Mg(上标 2+)浓度增加,叶中Ca(上标 2+)、Mg(上标 2+)浓度有所上升。
- 更多网络解释 与feature concentration相关的网络解释 [注:此内容来源于网络,仅供参考]
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Extract:抽取
0、关联复制 抽取(Extract) 引用(Instance Feature)11、特征编辑 参数(Edit Feature Parameters) 定位(Edit Positioning) 移动(Move Feature) 重排序(Reorder Feature) 删除(Delete Feature) 抑制(Suppress Feature) 取消抑制(Unsuppress Feature) 去除参数(Remove Parameters) 实体密度(Density)第二部分课程内容本部分学习
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TRIM:修整
e)9、裁剪 修整(Trim) 分割(Split)10、关联复制 抽取(Extract) 引用(Instance Feature)11、特征编辑 参数(Edit Feature Parameters) 定位(Edit Positioning) 移动(Move Feature) 重排序(Reorder Feature) 删除(Delete Feature) 抑制(Suppress Feature) 取消抑制(Unsuppress Feature) 去除参数(Remove Parameters) 实体密度(
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common feature and individual feature:共性与个性
性状:Feature | 共性与个性:common feature and individual feature. | 特征类:feature class