The reverse $k$ nearest neighbor query finds all points that have the query point as one of their $k$ nearest neighbors, where the $k$NN query finds the $k$ closest points to its query point. Based on conics, we propose an efficent R$k$NN verification method. By using the proposed verification method, we implement an efficient R$k$NN algorithm on VoR-tree, which has a computational complexity of $O(k^{1.5}\cdot log\,k)$. The comparative experiments are conducted between our algorithm and other two state-of-the-art R$k$NN algorithms. The experimental results indicate that the efficiency of our algorithm is significantly higher than its competitors.
翻译:最接近邻居的反向 $k$ 查询发现所有点, 其查询点是其近邻的 $k$ 之一, 即$k$ NN 查询点找到最接近查询点的 $k$ 。 基于二次曲线, 我们提出一个精密的 R$k$ NN 核查方法 。 通过使用提议的核查方法, 我们在VoR- Tree 上实施了高效的 R$kN 算法, 该算法的计算复杂度为 $O (k ⁇ 1.5 ⁇ cdot log\, k) 。 比较实验是在我们的算法和另外两个最先进的 R$kNN 算法之间进行。 实验结果显示, 我们算法的效率大大高于其竞争者 。
相关内容
微信扫码咨询专知VIP会员