The distance calculation in an image is a basic operation in computer vision, pattern recognition, and robotics. Several parallel algorithms have been proposed for calculating the Euclidean distance transform (EDT). Recently, Chen and Chuang proposed a parallel algorithm for computing the EDT on mesh-connected SIMD computers (1995). For an n/spl times image, their algorithm runs in O(n) time on a two-dimensional (2-D) n/spl times mesh-connected processor array. In this paper, we propose a more efficient parallel algorithm for computing the EDT on a reconfigurable mesh model. For the same problem, our algorithm runs in O(log /sup 2) time on a 2-D n/spl times reconfigurable mesh. Since a reconfigurable mesh uses the same amount of VLSI area as a plain mesh of the same size does when implemented in VLSI, our algorithm improves the result in [3] significantly.
展开▼
机译:图像中的距离计算是计算机视觉,模式识别和机器人技术的基本操作。已经提出了几种并行算法来计算欧几里德距离变换(EDT)。最近,Chen和Chuang提出了一种并行算法,用于在网状连接的SIMD计算机上计算EDT(1995年)。对于n / spl次/ n图像,他们的算法在二维(2-D)n / spl次/ n网格连接处理器阵列上以O(n)时间运行。在本文中,我们提出了一种在可重构网格模型上计算EDT的更有效的并行算法。对于相同的问题,我们的算法在2-D n / spl times / n可重构网格上以O(log / sup 2 / n)时间运行。由于可重构网格使用与在VLSI中实现的相同大小的普通网格相同的VLSI面积,因此我们的算法显着改善了[3]中的结果。
展开▼
