www.gusucode.com > 模版匹配定位跟踪源码程序 > 模版匹配定位跟踪源码程序/AlgorithmDevelopmentWithMATLAB/findBall.m
%% Find Green Object % This script reads in an image file and then attempts to find a green % object in the image. It is designed to find one green ball and highlight % that ball on the original image % Copyright 2013 The MathWorks, Inc. %% Housekeeping clear all; close all; clc; %% Step 1: Read image into MATLAB % First we read the specified image from the file and bring it into MATLAB % as a variable. We also display the image to ensure it is correct. greenBall1 = imread('greenBall1.jpg'); t = imtool(greenBall1); %% close(t); %% Step 2: Identify Unique Characteristics of Object of Interest %% % Extract each color % Next we using indexing to extract three 2D matrices from the 3D image % data corresponding to the red, green, and blue components of the image. r = greenBall1(:, :, 1); g = greenBall1(:, :, 2); b = greenBall1(:, :, 3); %% % View different color planes figure, colormap gray subplot(2,2,1),imagesc(r) subplot(2,2,2),imagesc(g) subplot(2,2,3),imagesc(b) %% % Calculate Green % Then we perform an arithmetic operation on the matrices as a whole to try % to create one matrix that represents an intensity of green. justGreen = g - r/2 - b/2; colorPlanesPlot(r,g,b,justGreen); %% close all %% Step 3: Isolate Object of Interest %% % Threshold the image % Now we can set a threshold to separate the parts of the image that we % consider to be green from the rest. bw = justGreen > 50; figure; imagesc(bw); colormap(gray); %% % Remove small unwanted objects % We can use special functions provided by the Image Processing toolbox to % quickly perform common image processing tasks. Here we are using % BWAREAOPEN to remove groups of pixels less than 30. ball1 = bwareaopen(bw, 30); figure; imagesc(ball1); %% Step 4: Find center of green object % Now we are using REGIONPROPS to extract the centroid of the group of % pixels representing the ball. figure; s = regionprops(ball1, {'centroid','area'}); if isempty(s) error('No ball found!'); else [~, id] = max([s.Area]); hold on, plot(s(id).Centroid(1),s(id).Centroid(2),'wp','MarkerSize',20,'MarkerFaceColor','r'), hold off disp(['Center location is (',num2str(s(id).Centroid(1),4),', ',num2str(s(id).Centroid(2),4),')']) end %% Step 5: Verify estimated location % Finally we will plot the center on the original image to clearly evaluate % how well we have found the center. figure; imagesc(greenBall1); hold on, plot(s(id).Centroid(1),s(id).Centroid(2),'wp','MarkerSize',20,'MarkerFaceColor','r'), hold off