Lucene 2.9 added two new features that play an important role in spatial search.
Lucene 2.9添加了两个在空间搜索方面起到重大作用的新特性。
In spatial search test the swimming initial Angle of the model group was larger than that of the sham-operation group.
在空间搜索实验中,模型组大鼠游泳初始角度显著大于假手术组。
Every location, of course, is its own neighbor by this query's spatial search criterion, so exclude that row from the search.
当然,根据这个查询的空间搜索条件,每个位置是它自己的邻居,所以要从搜索中排除这一行。
Both Lucene and Solr also offer the ability to restrict the space being searched by applying one or more filters, which are key to spatial search.
Lucene和Solr还通过应用一个或多个对空间搜索非常重要的过滤器来提供限制空间的能力。
Range producer function to define the search ranges for the spatial index during query execution.
用于定义在查询执行期间空间索引的搜索范围的范围生成器函数。
As you will see later, this distinction is important when it comes to encoding spatial data for search.
稍后您将看到,这一区分在为搜索编码空间数据时非常重要。
Thus, the remainder of the article will focus on how to index and search spatial information using Lucene and Solr.
本文后面的内容将关注如何使用Lucene和Solr为空间信息建立索引并搜索它们。
Numeric spatial information such as latitude and longitude (lat/lon for short) is where the more interesting representations come into play in terms of search with Lucene and Solr.
使用Lucene和 Solr 进行搜索时,纬度和经度(缩写为 lat/lon)等数字空间信息的表示方式是最有趣的。
As I'll show later, setting this up effectively is one of the keys to performance for filtering in spatial-search applications.
如我在稍后展示的一样,正确地设置范围查询是提升空间搜索应用程序的查询性能的关键因素之一。
Based on the image sequence's spatial characteristics of center-biased motion vectors, this method can significantly reduces the search times to (25-55).
该算法由于利用了序列图象运动矢量的空间分布特性—中心偏置分布特性,可以明显地将搜索次数降低到(25 - 55)次。
Based on Z curve, the paper presents a method of grid partition, a procedure of partitioning search region, and a high-dimensional spatial range query algorithm.
利用Z曲线聚类和降维特性,本文给出网格划分方法、搜索区域分解过程,提出一种高维空间范围查询算法。
In the course of visual search, there are unevenly distributions in the attention space, namely, the spatial effect.
视觉搜索过程中存在着注意的空间分布不均衡性,即空间位置效应。
They are line prediction based pseudo-diamond search (LPPDS) algorithm and spatial prediction based multi-frame selection algorithm.
分别为基于线性预测的准菱形搜索算法(LPPDS)和基于空间预测的多参考帧选择算法。
Adopt the integrative management style of spatial data and attribute data to carry on memory and search of the data very conveniently and high-efficiently.
采用空间数据和属性数据的一体化管理,可方便高效地进行数据的存储与检索。
R-tree is a dynamic index tree of space search. Its structure use multi-dimensional region to express spatial data object. R-tree is a valid way to visit rectangle.
树是空间搜索的动态索引树,它的结构是利用多个维中的区间来表示空间数据对象,它是矩形访问的一种有效方法。
At last we combine the spatial scheduling algorithm on Tree-Search with multilayer backtracking strategy, through that we can get a correctional dynamic spatial algorithm.
最后将基于树搜索的动态空间调度算法与多层回溯策略相结合,进一步得到一种修正的动态空间调度算法。
Nowadays the applications of spatial data similarity search are widely needed, and high dimensional spatial data index becomes a key technology of similarity search.
目前空间数据相似性查询有着广泛的应用需求,解决相似性查询问题的一项关键技术就是高维空间数据索引。
The present study assessed the effects of visual search, attention span, spatial working memory span, multi-target tracking and speed estimated on driving-related abilities of the PTSD patients.
本文从注意广度、空间记忆广度、多目标追踪、视觉搜索以及速度估计五个方面对PTSD患者的驾驶相关能力进行了研究。
This paper proposes a dynamic spatial scheduling approach based on tree-search to solve the assembling spatial scheduling problem in the large-sized discrete companies.
针对大型离散企业产品组装空间调度问题,提出了一种基于树搜索的动态调度方法。
In order to improve the search efficiency, we must establish a highly efficient spatial indexing mechanism.
为了提高检索效率,必须建立高效的空间索引机制。
By integrating the spatial data with the attributive data of received, this system can intuitively display data receiving information and easily query and search data as needed.
该系统通过空间数据和数据接收属性信息的结合,实现了接收数据情况的直观显示和方便的查询检索。
Incorporating spatial information into BSS algorithms, a class of time-spatial algorithms is derived, which restrict the search range in spatial and improved the convergence rate.
将空域信息引入时域的盲源分离算法,提出了一类水声基阵盲源分离的时空域算法,限定了算法的空域搜索范围,加快了算法的收敛速度。
This paper implements spatial data index and search of GIS, which can ensure the quickness and exactness of the query and search results.
可实现GIS中空间数据索引、检索功能,保证了空间数据查询的快速性和准确性。
This paper implements spatial data index and search of GIS, which can ensure the quickness and exactness of the query and search results.
可实现GIS中空间数据索引、检索功能,保证了空间数据查询的快速性和准确性。
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