形状图像数据库并行索引服务器的设计、实现与评价

T. Chiueh, D. Margaritis, S. Varadarajan
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引用次数: 0

摘要

描述了一个用于多边形二维形状图像数据库的并行索引器PAMIS(并行多媒体索引服务器)的设计、实现和评估。PAMIS基于一种称为旋转函数的形状表示方案,该方案具有良好的位置、尺度和旋转不变性,并且具有满足三角不等式的相似度量函数,这是高效数据库索引所必需的。由于PAMIS项目的目标是支持“类似”的图像查询,因此我们选择的索引方案,即优势点树(VPT),使用相对而不是绝对距离值来组织数据库元素,以实现高效的最近邻搜索。我们已经成功地在一个工作站网络上实现了PAMIS,以利用VPT算法中固有的I/O和计算并行性。我们发现,为了实现精益和深度的VPT结构,最好使VPT节点大小尽可能小,并且在所考虑的调度策略中,最佳情况调度策略的性能最好。总的来说,VPT算法的性能随着处理器数量的增加而扩展得很好,对于请求1和50个最近邻居的“好”查询,PAMIS的索引效率(定义为搜索所触及的数据库元素的百分比)分别为6%和39%。
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Design, implementation, and evaluation of a parallel index server for shape image database
Describes the design, implementation and evaluation of a parallel indexer called PAMIS (PArallel Multimedia Index Server) for a polygonal 2D shape image database. PAMIS is based on a shape representation scheme called the turning function, which exhibits the desirable properties of position, scale and rotation invariance, and has a similarity metric function that satisfies the triangular inequality, which is required for efficient database indexing. Because the goal of the PAMIS project is to support "like-this" image queries, the indexing scheme we chose, the vantage-point tree (VPT), uses relative rather than absolute distance values to organize the database elements for efficient nearest-neighbor searching. We have successfully implemented PAMIS on a network of workstations to exploit the I/O and computation parallelism inherent in the VPT algorithm. We found that it is preferable to make the VPT node size as small as possible in order to have a lean and deep VPT structure, and the best-case scheduling strategy performs the best among the scheduling strategies considered. Overall, the performance of the VPT algorithm scales very well with the number of processors, and the indexing efficiency (defined as the percentage of database elements touched by the search) of PAMIS is 6% and 39% for "good" queries that ask for 1 and 50 nearest neighbors, respectively.
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