1) fuzzy geographical object
模糊地理对象
1.
The methods of spatial modeling for fuzzy geographical objects are focused and the following two issues are resolved.
研究了模糊地理对象建模的空间建模方法,首先以对象建模方法定义模糊地理对象,以矢量数据模型为基础,用UML设计模糊对象类和模糊地理对象类,然后以统一的UML图表示基本模糊地理对象的概念模型,尤其是模糊拓扑关系,最后将UML图直接导入通用关系数据库,完成数据库的设计。
2) fuzzy object
模糊对象
1.
Based on the features of fuzzy objects in the image and the cloud theory,the paper studies the representation of fuzzy objects in image.
针对遥感影像中模糊对象的表现特征,借助云理论和云模型来对模糊对象进行表达研究。
2.
Nine fuzzy membership functions were defined to describe the direction relations between fuzzy objects and crisp objects with corresponding fuzzy sets.
首先给每个方向定义一个模糊隶属函数,使得目标对象属于某个方向的模糊性可用一个模糊集来描述,9方向关系系统可用9个模糊集来描述;然后在每个模糊集上定义一个聚集算子,使得每个模糊对象和精确对象间的方向关系可用一个3×3的模糊矩阵来描述。
3.
The significance, knowledge representation structure and reasoning mechanism of fuzzy object model are analyzed in detail.
提出并研究一种新的知识表达模型“模糊对象”。
3) fuzzy objects
模糊对象
1.
But,there is fuzziness in special data inevitably when abstracted and generalized into objects in GIS, thus the description of fuzzy objects spatial re.
利用Rough Set理论,在四交差模型的基础上,提出适合于描述确定和模糊区域或两个模糊区域目标间拓扑空间关系的扩展模型(4-4ID模型),并且详细讨论模糊对象之间的拓扑关系。
2.
Every element of an object does not always belong to one object, but can belong to several fuzzy objects with a fuzzy number indic.
把粗糙集和模糊集对空间数据的模糊性和不确定性处理的优势结合起来表达模糊对象 ,即利用粗糙集处理由于知识的粒度性所造成的模糊性和不精确性 ;利用模糊集处理模糊对象原始数据所具有的不确定性 ,从而扩展了空间数据模型对模糊数据的表达能力 ,并详细研究了模糊面与模糊面以及模糊线与模糊面之间的拓扑关
4) fuzzy subobject
模糊子对象
1.
The concept of the fuzzy subobject in a topos is introduced and the definition of membership degree of a element x about an object is given.
在一个topos中引入模糊子对象的概念 ,给出了一个对象的元素x对一个模糊子对象的隶属度的定义 。
2.
We introduced the concept of the fuzzy subobject in a topos,established category FC formed by fuzzy subobjects in a topos C,and proved FC is finite and complete.
在模糊范畴方面的研究中,我们在一个topos中引入模糊子对象的概念,建立了由topos C的模糊子对象构成的范畴FC,证明了FC是有限完备的;在模糊拓扑方面,我们引入了(α,β)-模糊拓扑的概念,并进一步给出了λ-模糊拓扑的概念。
5) geographical object
地理对象
1.
It can automatically and effectively identifies those changed data in updating by some methods such as spatial feature matching,comparing attribute and implement linkage updating of multi-scale spatial data based on linkage-relation which constructed by geographical object,sett.
该方案通过空间要素匹配和属性对比对发生变更的数据进行自动识别,并且能通过基于地理对象构建的关联关系实现多尺度空间数据的联动更新,有效地解决了多比例尺数据不一致的问题。
6) object-based FPN
对象化模糊Petri网
1.
To cope with the problems that the model s size is increased rapidly, functionality of colored fuzzy variable is limited and the knowledge classification can t be represented in modeling of FPN?FCPN and reasoning process, an improved object-based FPN modeling and fuzzy reasoning algorithm was proposed.
为解决FPNFCPN建模与推理过程中存在模型规模急剧增大、模糊变量颜色化的作用有限、无法表示知识分类等问题,提出了一种改进的对象化模糊Petri网(FPN)建模及模糊推理算法。
补充资料:部门或专题军事地理学(见军事地理学)
部门或专题军事地理学(见军事地理学)
sectorial or thematic military geography
bumen huo zhuanti lunshi diliXue部门或专题军事地理学(sec‘orial orthematie military geography)见军事地理学。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条