文件名称:aco
介绍说明--下载内容均来自于网络,请自行研究使用
Contour Correspondence via Ant Colony Optimization
Oliver van Kaick <ovankaic@cs.sfu.ca>
http://www.cs.sfu.ca/~ovankaic/personal/
This MATLAB implementation computes a correspondence between two shapes
based on ant colony optimization (ACO). The input shapes can be either
two 2D contours (open or closed) or two arbitrary sets of 2D points.-Contour Correspondence via Ant Colony Optimization
Oliver van Kaick <ovankaic@cs.sfu.ca>
http://www.cs.sfu.ca/~ovankaic/personal/
This MATLAB implementation computes a correspondence between two shapes
based on ant colony optimization (ACO). The input shapes can be either
two 2D contours (open or closed) or two arbitrary sets of 2D points.
Oliver van Kaick <ovankaic@cs.sfu.ca>
http://www.cs.sfu.ca/~ovankaic/personal/
This MATLAB implementation computes a correspondence between two shapes
based on ant colony optimization (ACO). The input shapes can be either
two 2D contours (open or closed) or two arbitrary sets of 2D points.-Contour Correspondence via Ant Colony Optimization
Oliver van Kaick <ovankaic@cs.sfu.ca>
http://www.cs.sfu.ca/~ovankaic/personal/
This MATLAB implementation computes a correspondence between two shapes
based on ant colony optimization (ACO). The input shapes can be either
two 2D contours (open or closed) or two arbitrary sets of 2D points.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
aco
...\aco_matching.m
...\area_normalize.m
...\bipartite_matching.m
...\construct_matching.m
...\contours
...\........\bump1.ctr
...\........\bump2.ctr
...\........\fish1.ctr
...\........\fish2.ctr
...\........\fish3.ctr
...\........\hand1.ctr
...\........\hand2.ctr
...\........\plane1.ctr
...\........\plane2.ctr
...\contour_area.m
...\contour_length.m
...\copap.m
...\dist2.m
...\distance_matrix.m
...\evaluate_matching.m
...\extract_descriptor.m
...\extract_shape_context.m
...\hungarian.m
...\order_preserving_matching.m
...\pairwise_geodesic_dist.m
...\README
...\sc_compute.m
...\set_global.m
...\shape_matching.m
...\show_contour.m
...\signed_triangle_area.m
...\simmat_chisquare.m
...\simmat_euclidean.m
...\update_pheromones.m
...\valid_range.m
...\viz_matching.m
...\aco_matching.m
...\area_normalize.m
...\bipartite_matching.m
...\construct_matching.m
...\contours
...\........\bump1.ctr
...\........\bump2.ctr
...\........\fish1.ctr
...\........\fish2.ctr
...\........\fish3.ctr
...\........\hand1.ctr
...\........\hand2.ctr
...\........\plane1.ctr
...\........\plane2.ctr
...\contour_area.m
...\contour_length.m
...\copap.m
...\dist2.m
...\distance_matrix.m
...\evaluate_matching.m
...\extract_descriptor.m
...\extract_shape_context.m
...\hungarian.m
...\order_preserving_matching.m
...\pairwise_geodesic_dist.m
...\README
...\sc_compute.m
...\set_global.m
...\shape_matching.m
...\show_contour.m
...\signed_triangle_area.m
...\simmat_chisquare.m
...\simmat_euclidean.m
...\update_pheromones.m
...\valid_range.m
...\viz_matching.m