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  • 微信【跳一跳】 opencv视觉识别 + 物理外挂

    视频连接:http://v.youku.com/v_show/id_XMzMyNDQxNTA0OA==.html?spm=a2h3j.8428770.3416059.1




     

    初入门C++ 与 opencv视觉库,写了一个跳一跳的物理挂,现在识别率还比较差,先记录下过程,以后在慢慢修改整理。

    一、外挂结构

    上位机:USB摄像头连接windows电脑,用作处理识别拍摄到图像数据。

    下位机:STM32单片机,用于控制陀机附带电容笔进行物理点击。

    单片机部分很简单,所以下文主要记录上位机的内容。



    二、上位机程序框架

    开发平台:Visual Studio 2012 

    思路:

    1. 读取摄像头数据;
    2. 提取图像中的手机屏幕、进行屏幕矫正;
    3. 识别人物和方块并计算它们的距离(现方案识别部分采用模板匹配、模板使用photoshop预先裁剪好,加载入程序中);
    4. 把计算结果通过串口交给下位机,由下位机带动陀机进行物理点击;


    三、程序源码

    ScreenExtraction.cpp用于识别屏幕边缘、提取内容和矫正

    #include "ScreenExtraction.h"
    #include "main.h"
    
    
    ScreenExtract::ScreenExtract()
    {
    
    }
    
    ScreenExtract::ScreenExtract(Mat srcMat)
    {
        setSrc(srcMat);
    }
    
    ScreenExtract::~ScreenExtract()
    {
    }
    Mat ScreenExtract::getDst()
    {
        return m_MatDstImageStand;
    }
    
    bool ScreenExtract::setSrc(Mat srcMat)
    {
        m_MatSrcImage = srcMat.clone();
        m_MatEdgeImage = srcMat.clone();
        m_MatHoughImage = srcMat.clone();
        m_MatCornerImage = srcMat.clone();
        Mat temp(1280,720,srcMat.type()); 
        m_MatDstImageLie = temp.clone();
        Mat temp2(720,1280,srcMat.type()); 
        m_MatDstImageStand = temp2.clone();
        return true;
    }
    
    Mat ScreenExtract::runExtract()
    {
        int cannyThrel=100;
        int failCNT=0;
        while(1)
        {
            m_MatEdgeImage = EdgeDection(m_MatEdgeImage,cannyThrel);
            m_MatHoughImage = HoughLine(m_MatEdgeImage);
            m_MatCornerImage = CornerHarris(m_MatHoughImage,m_PointPerspectiveSrcBuff);
            if(failCNT>20)
            {
                throw("Extract fail");
                return m_MatSrcImage;
            }
            if(m_PointPerspectiveSrcBuff.size() == 8)
            {
                break;
            }
            else if(m_PointPerspectiveSrcBuff.size()>8)
            {
                if(cannyThrel<500)
                {
                    cannyThrel+=20;
                }
                failCNT++;
            }
            else if(m_PointPerspectiveSrcBuff.size()<8)
            {
                if(cannyThrel>10)
                {
                    cannyThrel-=5;
                }
                failCNT++;
            }
            waitKey(10);
        }
    
        m_MatDstImageLie = perspectiveChange(m_MatSrcImage,m_PointPerspectiveSrcBuff);
        m_MatDstImageStand = rotation(m_MatDstImageLie,90);
        return m_MatDstImageStand;
    } 
    Mat ScreenExtract::runFastExtract(Mat srcMat)
    {
        m_MatSrcImage = srcMat.clone();
        m_MatDstImageLie = perspectiveChange(m_MatSrcImage,m_PointPerspectiveSrcBuff);
        m_MatDstImageStand = rotation(m_MatDstImageLie,90);
        return m_MatDstImageStand;
    
    }
    
    
    //private
    Mat ScreenExtract::EdgeDection(Mat srcImage,int cannyThrel)
    {
        Mat cannyEdge;
        Mat dstImage = m_MatSrcImage.clone(); 
    
        //降噪
        blur(m_MatSrcImage,cannyEdge,Size(3,3));
    #ifdef DEBUG_SHOW_ScreenExtract
        //namedWindow("blur()",CV_WINDOW_AUTOSIZE);
        //imshow(Windows_Edge,g_dstImage);
        imshow("blur()",cannyEdge);    
    #endif
    
        //运行Canny算子
        Canny(cannyEdge,cannyEdge,cannyThrel,cannyThrel*3,3);
    
        //先将g_dstImage内的所有元素设置为0
        dstImage = Scalar::all(0);
    
        //使用Canny算子输出的边缘图g_cannyDetectedEdges作为掩码,来将原图g_srcImage拷贝到目标图g_dstImage中
        srcImage.copyTo(dstImage,cannyEdge);
    
    #ifdef DEBUG_SHOW_ScreenExtract
        //namedWindow("EdgeDection()",CV_WINDOW_AUTOSIZE);
        //imshow(Windows_Edge,g_dstImage);
        imshow("EdgeDection()",cannyEdge);    
    #endif
    
        return cannyEdge;
    }
    
    Mat ScreenExtract::HoughLine(Mat srcImage)
    {
        Mat dstImage = srcImage.clone();  
        //g_houghWithSrc = g_srcImage.clone(); 
        dstImage = Scalar::all(255);
    
        //houghlinesP
        //vector<Vec4i> mylines;
        //HoughLinesP(g_cannyDetectedEdges,mylines,1,CV_PI/180,valueA+1,valueB,valueC);
        ////循环遍历绘制每一条线段  
        //  for( size_t i = 0; i < mylines.size(); i++ )  
        //  {  
        //      Vec4i lines = mylines[i];  
        //    //line()划线 
        //      line( dstImage, Point(lines[0], lines[1]), Point(lines[2], lines[3]), Scalar(55,100,195), 1,CV_AA);// CV_AA);  
        //  }  
    
        //houghlines
        vector<Vec2f> mylines;
    
        HoughLines(srcImage, mylines, 1, (CV_PI-0.2)/180,srcImage.cols/8, 0, 0 );  
        //HoughLines(g_cannyDetectedEdges, mylines, 1, CV_PI/180, valueA+1, valueB, valueC );  
    
        //依次在图中绘制出每条线段  
        for( size_t i = 0; i < mylines.size(); i++ )  
        {  
            float rho = mylines[i][0], theta = mylines[i][1];  
            Point pt1, pt2;  
            double a = cos(theta), b = sin(theta);  
            double x0 = a*rho, y0 = b*rho;  
            pt1.x = cvRound(x0 + 3000*(-b));  
            pt1.y = cvRound(y0 + 3000*(a));  
            pt2.x = cvRound(x0 - 3000*(-b));  
            pt2.y = cvRound(y0 - 3000*(a));  
            line( dstImage, pt1, pt2, Scalar(0,0,0), 1, CV_AA);  
            //line( g_houghWithSrc, pt1, pt2, Scalar(0,255,0), 1, CV_AA);  
        }
    
    #ifdef DEBUG_SHOW_ScreenExtract
        //显示图片
        //imshow(Windows_Hough,dstImage); 
        //imshow(Windows_Hough,g_houghLine);
        imshow("HoughLine()",dstImage);
    #endif
    
        return dstImage;
    }
    
    
    Mat ScreenExtract::CornerHarris( Mat srcImage ,vector<Point2f>  &vecPoint)  
    {  
        //---------------------------【1】定义一些局部变量-----------------------------  
        Mat g_srcImageClone = m_MatSrcImage.clone() ;
        Mat writeImage(m_MatSrcImage.rows,m_MatSrcImage.cols,m_MatSrcImage.type());
        Mat dstImage;//目标图  
        Mat normImage;//归一化后的图  
        Mat scaledImage;//线性变换后的八位无符号整型的图  
        int iCornerThresh = 110;
    
        //g_CornerWithHoughWithSrc = g_houghWithSrc;
        writeImage = Scalar::all(255);
        //---------------------------【2】初始化---------------------------------------  
        //置零当前需要显示的两幅图,即清除上一次调用此函数时他们的值  
        //dstImage = Mat::zeros( srcImage.size(), CV_32FC1 );  
        //g_srcImageClone=g_srcImage.clone( );  
      
        //---------------------------【3】正式检测-------------------------------------  
        //进行角点检测  
        //cornerHarris( g_srcGrayImage, dstImage, 2, 3, 0.04, BORDER_DEFAULT );  //原图角点检测
        cornerHarris( srcImage, dstImage, 2, 3, 0.04, BORDER_DEFAULT );    //霍夫变换后的角点检测
    
      
        // 归一化与转换  
        normalize( dstImage, normImage, 0, 255, NORM_MINMAX, CV_32FC1, Mat() );  
        convertScaleAbs( normImage, scaledImage );//将归一化后的图线性变换成8位无符号整型   
      
        //---------------------------【4】进行绘制-------------------------------------  
        // 将检测到的,且符合阈值条件的角点绘制出来  
        for( int j = normImage.rows/100; j < normImage.rows-normImage.rows/100 ; j++ )  
        {
            for( int i = normImage.cols/100; i < normImage.cols-normImage.cols/100; i++ )  
            {  
                if( (int) normImage.at<float>(j,i) > iCornerThresh  )  
                {  
                    circle( g_srcImageClone, Point( i, j ), 5,  Scalar(10,10,255), 2, 8, 0 );  
                    //circle( g_CornerWithHoughWithSrc, Point( i, j ), 5,  Scalar(10,10,255), 2, 8, 0 );  
                    circle( scaledImage, Point( i, j ), 10,  Scalar(0,10,255), -1, 8, 0 );  
                    circle( writeImage, Point( i, j ), 10,  Scalar(0,10,255), -1, 8, 0 ); 
                }  
            }  
        }  
        
        vecPoint = GatherPoint( writeImage,iCornerThresh);
    #ifdef DEBUG_SHOW_ScreenExtract
        //---------------------------【4】显示最终效果---------------------------------  
        //imshow( "CornerHarris", g_CornerWithHoughWithSrc );  //在原图叠加霍夫图上显示
        //imshow( "CornerHarris", g_srcImageClone );  //在原图上显示
        //imshow( "CornerHarris", scaledImage );  //使用灰度图显示
        imshow( "CornerHarris", writeImage );
    #endif
        return scaledImage;
    }  
    
    vector<Point2f> ScreenExtract::GatherPoint( Mat srcImage, int CornerThresh ) 
    {
        //imshow( "GatherPoint", srcImage );
        //Mat grayImage=srcImage.clone() ;
        Mat canny_output;
        Mat grayImage;
        vector<vector<Point>>contours;
        vector<Vec4i>hierarchy;
        //RNG rng(12345);
    
    
        //转成灰度图
        cvtColor(srcImage, grayImage, COLOR_BGR2GRAY);
    
        //canny边缘检测
        Canny(grayImage, canny_output, 50, 50 * 2, 3);
    
        //轮廓提取
        findContours(canny_output, contours, hierarchy, RETR_TREE, CHAIN_APPROX_SIMPLE, Point(0, 0));
    
        //计算图像矩
        vector<Moments>mu(contours.size());
        for (unsigned int i = 0; i < contours.size(); i++)
        {
            mu[i] = moments(contours[i], false);
        }
        //计算图像的质心
        vector<Point2f>mc(contours.size());
        for (unsigned int i = 0; i < contours.size(); i++)
        {
            mc[i] = Point2f(mu[i].m10 / mu[i].m00, mu[i].m01 / mu[i].m00);
        }
    
        //绘制轮廓
        Mat drawing = Mat::zeros(srcImage.size(), CV_8UC3);
        for (unsigned int i = 0; i < contours.size(); i++)
        {
            Scalar color = Scalar(0, 255, 0);
            drawContours(drawing, contours, i, color, 2, 8, hierarchy, 0, Point());
            circle(drawing, mc[i], 4, color, -1, 8, 0);
        }
    #ifdef DEBUG_SHOW_ScreenExtract
        //namedWindow("GatherPoint", WINDOW_AUTOSIZE);
        imshow("GatherPoint", drawing);
    #endif
        
        return mc;
    }
    
    
    Mat ScreenExtract::perspectiveChange(Mat srcMat,vector<Point2f> srcBuff)
    {
        //Mat变量
        Mat dstMat(srcMat.rows,srcMat.cols,srcMat.type());
        Mat perspectiveMat( 2,3,CV_32FC1);
    
        //透视变换参数
        Point2f perspectiveSrcBuff[4];
        Point2f perspectiveDesBuff[4];
    
        //透视变换坐标设置
        perspectiveSrcBuff[0] = Point2f((srcBuff[0].x+srcBuff[1].x)/2,(srcBuff[0].y+srcBuff[1].y)/2) ;  
        perspectiveSrcBuff[1] = Point2f((srcBuff[2].x+srcBuff[3].x)/2,(srcBuff[2].y+srcBuff[3].y)/2) ;   
        perspectiveSrcBuff[2] = Point2f((srcBuff[4].x+srcBuff[5].x)/2,(srcBuff[4].y+srcBuff[5].y)/2) ;
        perspectiveSrcBuff[3] = Point2f((srcBuff[6].x+srcBuff[7].x)/2,(srcBuff[6].y+srcBuff[7].y)/2) ;
    
        //求变换后坐标
        for(int i=0;i<3;i++)
        {
            if(0== getPointPlace(srcMat,perspectiveSrcBuff[i]) )
            {
                perspectiveDesBuff[i] = Point2f( 0, 0);  
            }
            else if(1 == getPointPlace(srcMat,perspectiveSrcBuff[i]) )
            {
                perspectiveDesBuff[i] = Point2f( 0, static_cast<float>(dstMat.rows-1));         
            }
            else if(2 == getPointPlace(srcMat,perspectiveSrcBuff[i]) )
            {
                perspectiveDesBuff[i] = Point2f( static_cast<float>(dstMat.cols-1), 0); 
            }
            else if(3 == getPointPlace(srcMat,perspectiveSrcBuff[i]) )
            {
                perspectiveDesBuff[i] = Point2f( static_cast<float>(dstMat.cols-1), static_cast<float>(dstMat.rows-1));
            }
        }
     
        //求透视变换
        perspectiveMat = getPerspectiveTransform( perspectiveSrcBuff, perspectiveDesBuff );  
    
        //对源图像应用刚刚的透视变换
        warpPerspective(srcMat, dstMat, perspectiveMat, dstMat.size());
    
    #ifdef DEBUG_SHOW_ScreenExtract
        //显示
        imshow( "perspectiveChange", dstMat );
    #endif
        return dstMat;
    }
    int ScreenExtract::getPointPlace(Mat srcImage,Point2f point)
    {
        if(point.x < srcImage.cols/2)
        {
            if(point.y < srcImage.rows/2)
            {
                return 0; 
            }
            else
            {
                return 1;
            }
        }
        else
        {
            if(point.y < srcImage.rows/2)
            {
                return 2; 
            }
            else
            {
                return 3;
            }    
        }
    }
    
    
    Mat ScreenExtract::rotation(Mat srcMat,float degree)
    {
        Mat dstImage(srcMat.rows,srcMat.cols,srcMat.type());
        int len = max(srcMat.cols, srcMat.rows);
        Point2f pt(len/2.f,len/2.f);
        Mat r = getRotationMatrix2D(pt,degree,1.0);
        warpAffine(srcMat,dstImage,r,Size(srcMat.rows,srcMat.cols));
    
        return dstImage;
    }
    View Code

    ScreenExtraction.h为头文件

    #ifndef __SCREENEXTRACTION_H
    #define __SCREENEXTRACTION_H
    
    #include <opencv2/highgui/highgui.hpp>
    #include <opencv2/imgproc/imgproc.hpp>
    /* 
    #include <opencv2/nonfree/nonfree.hpp>  
    #include<opencv2/legacy/legacy.hpp> */ 
    #include <iostream>  
    using namespace cv;
    using namespace std;
    
    //#define DEBUG_SHOW_ScreenExtract
    
    class ScreenExtract
    {
    public:
        ScreenExtract();
        ScreenExtract(Mat srcMat);
        ~ScreenExtract();
        Mat getDst();
    
        bool setSrc(Mat srcMat);
        Mat runExtract();
        Mat runFastExtract(Mat srcMat);
    private:
        Mat EdgeDection(Mat srcImage,int cannyThrel);
        Mat HoughLine(Mat srcImage);
        Mat CornerHarris( Mat srcImage,vector<Point2f> &vecPoint) ;
        vector<Point2f> GatherPoint( Mat srcImage, int CornerThresh ) ;
        Mat perspectiveChange(Mat srcMat,vector<Point2f> srcBuff);
        int ScreenExtract::getPointPlace(Mat srcImage,Point2f point);//获取点在屏幕的位置
        Mat rotation(Mat srcImage,float degree);
    private:
        Mat m_MatSrcImage;
        Mat m_MatEdgeImage;
        Mat m_MatHoughImage;
        Mat m_MatCornerImage;
        Mat m_MatDstImageLie;
        Mat m_MatDstImageStand;
        vector<Point2f> m_PointPerspectiveSrcBuff;
    };
    
    
    #endif
    View Code

    ImageMatch.cpp用于识别内容

    #include "ImageMatch.h"
    
    
    ImageMatch::ImageMatch(Mat srcImage)
    {    
        m_MatSrcImage = srcImage.clone();
        m_MatMatchImage = srcImage.clone();
        m_MatDstImage = srcImage.clone();
        m_iFeatureMaxSize = 50;
    }
    
    ImageMatch::~ImageMatch()
    {    
    
    }
    /*******************************************************************************
    * Function Name  : addObjectFeatureImage
    * Description    : add an objcet feature to feature vector
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool ImageMatch::setSrcImage(Mat srcImage)
    {
        m_MatSrcImage = srcImage.clone();
        return true;    
    }
    /*******************************************************************************
    * Function Name  : addObjectFeatureImage
    * Description    : add an objcet feature to feature vector
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool ImageMatch::addCubeFeatureImage(Mat image)
    {
        if(m_vecCubeFeatureImage.size()<m_iFeatureMaxSize)
        {
            m_vecCubeFeatureImage.push_back(image);
            return true;
        }
    
        return false;
    }
    bool ImageMatch::addCubeFeatureImage(vector<Mat> vec)
    {
    
        if(m_vecCubeFeatureImage.size()+vec.size()<m_iFeatureMaxSize)
        {
            m_vecCubeFeatureImage.insert(m_vecCubeFeatureImage.end(),vec.begin(),vec.end());
            return true;
        }
    
        return false;    
    }
    
    bool ImageMatch::addConfusingFeatureImage(Mat image)
    {
        if(m_vecConfusingFeatureImage.size()<m_iFeatureMaxSize)
        {
            m_vecConfusingFeatureImage.push_back(image);
            return true;
        }
        return false;    
    }
    bool ImageMatch::addConfusingFeatureImage(vector<Mat> vec)
    {
    
        if(m_vecConfusingFeatureImage.size()+vec.size()<m_iFeatureMaxSize)
        {
            m_vecConfusingFeatureImage.insert(m_vecConfusingFeatureImage.end(),vec.begin(),vec.end());
            return true;
        }
    
        return false;    
    }
    /*******************************************************************************
    * Function Name  : setPersonFeature
    * Description    : set the person feature
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool ImageMatch::setPersonFeature(Mat image)
    {
        m_MatPersonFeatureImage = image.clone();
        return true;
    }
    
    /*******************************************************************************
    * Function Name  : runMatch
    * Description    : Match main programm
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    Mat ImageMatch::runMatch()
    {
        //【0】预处理
        Mat dstImage = m_MatSrcImage.clone();
        Mat srcImage_Adjust= AdjectDefinition(m_MatSrcImage,100,0);
    
    
        //【1】匹配人物
        m_pLocPerson = SearchPerson( srcImage_Adjust, 10, (int)(srcImage_Adjust.rows*0.35), srcImage_Adjust.cols-20, (int)(srcImage_Adjust.rows*0.35) );
    #ifdef DEBUG_SHOW_ImageMatch
        //rectangle( srcImage_Adjust,  Rect(loc,  Size(m_MatPersonFeatureImage.cols, m_MatPersonFeatureImage.rows) ), Scalar(0, 0, 255), 2, 8, 0 );
        circle( srcImage_Adjust, m_pLocPerson, 10,  Scalar(0,0,255), 5, 8, 0 );  
        //imshow("TempleMatch",srcImage_Adjust);
    #endif
    
        //【2】匹配建筑
        if(m_pLocPerson.x < srcImage_Adjust.cols*0.5)//人物在左边,搜索右半区域,为了加速
            m_pLocBlock = SearchBuilding( srcImage_Adjust, (int)(srcImage_Adjust.cols*0.3)+10, (int)(srcImage_Adjust.rows*0.20), (int)(srcImage_Adjust.cols*0.7)-20, (int)(srcImage_Adjust.rows*0.5));
        else//搜索左半区
            m_pLocBlock = SearchBuilding( srcImage_Adjust , 10, (int)(srcImage_Adjust.rows*0.20), (int)(srcImage_Adjust.cols*0.7)-20, (int)(srcImage_Adjust.rows*0.5));
    #ifdef DEBUG_SHOW_ImageMatch
        circle( srcImage_Adjust, m_pLocBlock, 20,  Scalar(0,255,0), 5, 8, 0 );  
    
        imshow("TempleMatch",srcImage_Adjust);
    #endif
    
        m_fDistance    = calculateDistance(m_pLocPerson,m_pLocBlock);
    
        return dstImage; 
    }
    /*******************************************************************************
    * Function Name  : changeSrcAndrunMatch
    * Description    : Change src image and run Match
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    Mat ImageMatch::changeSrcAndrunMatch(Mat srcImage)
    {
        setSrcImage(srcImage);
        return runMatch();
    }
    float ImageMatch::getDistance()
    {
        float result = m_fDistance*2.1f+0;
        if(result<0)
            result=0;
        return result;
    }
    //private
    /*******************************************************************************
    * Function Name  : vecFeatureImageToVecFeatureImage
    * Description    : update definition
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    bool ImageMatch::FeatureVectorChangeToEdgeVector()
    {
        m_vecFeatureEdgeImage.clear();
        for(unsigned int i=0;i<m_vecCubeFeatureImage.size();i++)
        {
            //m_MatSrcImage = FeatureMatchAndMark(m_vecCubeFeatureImage[i],m_MatSrcImage);
            m_vecFeatureEdgeImage.push_back ( calEdge(m_vecCubeFeatureImage[i],10));
    #ifdef DEBUG_SHOW_ImageMatch
            imshow("Edge",m_vecFeatureEdgeImage[i]);
    #endif
        }    
        return true;
    }
    /*******************************************************************************
    * Function Name  : definition
    * Description    : update definition
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    Mat ImageMatch::AdjectDefinition(Mat srcImage,int contrast,int brightness)
    {
        Mat dstImage;
        //平滑
        blur(srcImage,dstImage,Size(3,3));
    
        //对比度亮度调节
        for(int y = 0; y < dstImage.rows; y++ ) //遍历图片的纵坐标 
        {  
            for(int x = 0; x < dstImage.cols; x++ )//遍历图片的横坐标  
            {  
                for(int c = 0; c < 3; c++ )  //分开图像的RGB
                {  
                    //对比度在0-300之间,所以乘以0.01,并用saturate_cast把计算结果转换成uchar类型
                    dstImage.at<Vec3b>(y,x)[c]= saturate_cast<uchar>( (contrast*0.01)*(dstImage.at<Vec3b>(y,x)[c] ) + brightness );  
                }  
            }  
        }  
        //    imshow("src",srcImage);
        //    imshow("dst",dstImage);
    
        //二次平滑
        //blur(dstImage,dstImage,Size(3,3)); 
    
        return dstImage;
    }
    /*******************************************************************************
    * Function Name  : addObjectFeatureImage
    * Description    : add an objcet feature to feature vector
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    Mat ImageMatch::calEdge(Mat srcImage,int threl)
    {
        Mat dstImage;
        //canny
        Canny(srcImage,dstImage,threl,threl*3,3);
    
    #ifdef DEBUG_SHOW_ImageMatch
        imshow("calEdge",dstImage);
    
    #endif
        return dstImage;
    }
    
    /*******************************************************************************
    * Function Name  : SearchPerson
    * Description    : find block point
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    Point ImageMatch::SearchPerson(Mat TargetImage,int ROI_Xstart,int ROI_Ystart,int ROI_length,int ROI_heigh )
    {
        //【0】局部变量用于返回人物坐标
        Point dstLoc;
    
        //【1】设置ROI区域
        Mat imageROI=TargetImage( Rect(ROI_Xstart, ROI_Ystart, ROI_length, ROI_heigh ) );    
    
        //【2】模板匹配
        float matchaValue = (float)TempleMatch(m_MatPersonFeatureImage, imageROI, dstLoc, CV_TM_CCOEFF_NORMED) ;
        if( matchaValue < 0.64)
        {
            throw("Person match fail");
        }
        else
        {
    #ifdef DEBUG_SHOW_ImageMatch
            //rectangle( imageROI,  Rect(dstLoc,  Size(m_MatPersonFeatureImage.cols, m_MatPersonFeatureImage.rows) ), Scalar(0, 0, 255), 2, 8, 0 );
            //imshow("SearchqPerson",imageROI);
    #endif
            //根据输入的ROI设置纠正坐标
            dstLoc.x+=ROI_Xstart;
            dstLoc.y+=ROI_Ystart;
            //让坐标重新纠正道指向人物与地面的接触中点
            dstLoc.x += (int)(m_MatPersonFeatureImage.cols/2);
            dstLoc.y += (int)(m_MatPersonFeatureImage.rows*0.8);
        }
        return dstLoc;
    }
    
    /*******************************************************************************
    * Function Name  : FindBuilding
    * Description    : find block point
    * Input          : None
    * Output         : None
    * Return         : destination image
    *******************************************************************************/
    Point ImageMatch::SearchBuilding(Mat TargetImage, int ROI_Xstart,int ROI_Ystart,int ROI_length,int ROI_heigh)
    {
        //【0】定义两个容器用于存放每个矩形特征的最佳匹配点和匹配值
        vector<Point> vecCubePoint(m_vecCubeFeatureImage.size());
        vector<float> vecCubeValue(m_vecCubeFeatureImage.size());
        //【0】定义一些阈值
        float completelyMatchThrel = 0.70f;//认为一种图形完全匹配的阈值
        float LowestThrel = 40;//认为基本相近的阈值
        //【0】定义一些临时变量
        Point loc;
        float matchValue;
        //【0】最终配置相关变量
        bool matchSucceed=false;//是否找到完全匹配特征标记
        Point lastLoc(0,0);//最终位置
        float lastValue;//最终匹配值
        int lastIndex=-1;//最终位置对应的特征序号
    
        //【0】计时
        TimeOperation time;
        int ms=0;
    
        //【1】转为灰度图
        cvtColor(TargetImage,TargetImage,CV_BGR2GRAY);
    
        //【2】设置ROI区域
        Mat imageROI=TargetImage( Rect(ROI_Xstart, ROI_Ystart, ROI_length, ROI_heigh ) );    
    
    
        //【3】匹配建筑
        for(unsigned int i=0;i<m_vecCubeFeatureImage.size();i++)
        {
            matchValue = (float)TempleMatch(m_vecCubeFeatureImage[i],imageROI,loc,CV_TM_CCOEFF_NORMED );
            if(matchValue > completelyMatchThrel)
            {
                lastLoc = loc ;
                //纠正坐标
                lastLoc.x += ROI_Xstart;
                lastLoc.y += ROI_Ystart;
                lastLoc.x += (int)(m_vecCubeFeatureImage[i].cols*0.5);
                lastLoc.y += (int)(m_vecCubeFeatureImage[i].rows*0.3);
                //若是任务脚底的建筑,继续找
                if(calculateDistance(lastLoc,m_pLocPerson)<LowestThrel+30)
                {
                    lastLoc.x=0;
                    lastLoc.y=0;
                    continue;
                }
                matchSucceed = true;
                lastValue = matchValue;
                lastIndex = i;
    #ifdef DEBUG_SHOW_ImageMatch
                imshow("matchfeature",m_vecCubeFeatureImage[i]);
                rectangle( imageROI,  Rect(loc,  Size(m_vecCubeFeatureImage[i].cols, m_vecCubeFeatureImage[i].rows) ), Scalar(0, 0, 255), 2, 8, 0 );
                imshow("SearchPerson",imageROI);
    #endif
                break;
            }
            else
            {
                vecCubePoint[i]=loc;
                vecCubeValue[i]=matchValue;
            }
        }
    
        ////【4】没有完全匹配,寻找最佳匹配
        if(!matchSucceed)
        {
            for(unsigned int i=0;i<m_vecCubeFeatureImage.size();i++)
            {
                Mat featureROI;
                if(m_pLocPerson.x<TargetImage.cols/2)//取特征的右边
                {
                    featureROI =m_vecCubeFeatureImage[i]( Rect(m_vecCubeFeatureImage[i].cols*0.4, 0, m_vecCubeFeatureImage[i].cols*0.6-1, m_vecCubeFeatureImage[i].rows ) );    
                    matchValue = (float)TempleMatch(featureROI,imageROI,loc,CV_TM_CCOEFF_NORMED );
                    if(matchValue > completelyMatchThrel)
                    {
                        lastLoc = loc ;
                        //纠正坐标
                        lastLoc.x += ROI_Xstart;
                        lastLoc.y += ROI_Ystart;
                        lastLoc.x += (int)(m_vecCubeFeatureImage[i].cols*(0.5-0.4));
                        lastLoc.y += (int)(m_vecCubeFeatureImage[i].rows*0.3);
                        //若是任务脚底的建筑,继续找
                        if(calculateDistance(lastLoc,m_pLocPerson)<LowestThrel)
                        {
                            lastLoc.x=0;
                            lastLoc.y=0;
                            continue;
                        }
                        matchSucceed = true;
                        lastValue = matchValue;
                        lastIndex = i;
    #ifdef DEBUG_SHOW_ImageMatch
                        imshow("matchfeature",m_vecCubeFeatureImage[i]);
                        rectangle( imageROI,  Rect(loc,  Size(m_vecCubeFeatureImage[i].cols, m_vecCubeFeatureImage[i].rows) ), Scalar(0, 0, 255), 2, 8, 0 );
                        imshow("SearchPerson",imageROI);
    #endif
                        break;
                    }
                }
                else
                {
                    featureROI =m_vecCubeFeatureImage[i]( Rect(0, 0, m_vecCubeFeatureImage[i].cols*0.6-1, m_vecCubeFeatureImage[i].rows ) );
                    matchValue = (float)TempleMatch(featureROI,imageROI,loc,CV_TM_CCOEFF_NORMED );
                    if(matchValue > completelyMatchThrel)
                    {
                        lastLoc = loc ;
                        //纠正坐标
                        lastLoc.x += ROI_Xstart;
                        lastLoc.y += ROI_Ystart;
                        lastLoc.x += (int)(m_vecCubeFeatureImage[i].cols*0.5);
                        lastLoc.y += (int)(m_vecCubeFeatureImage[i].rows*0.3);
                        //若是任务脚底的建筑,继续找
                        if(calculateDistance(lastLoc,m_pLocPerson)<LowestThrel)
                        {
                            lastLoc.x=0;
                            lastLoc.y=0;
                            continue;
                        }
                        matchSucceed = true;
                        lastValue = matchValue;
                        lastIndex = i;
    #ifdef DEBUG_SHOW_ImageMatch
                        imshow("matchfeature",m_vecCubeFeatureImage[i]);
                        rectangle( imageROI,  Rect(loc,  Size(m_vecCubeFeatureImage[i].cols, m_vecCubeFeatureImage[i].rows) ), Scalar(0, 0, 255), 2, 8, 0 );
                        imshow("SearchPerson",imageROI);
    #endif
                        break;
                    }
                }
    
            }
        }
        //易混淆图片匹配
        for(unsigned int i=0;i<m_vecConfusingFeatureImage.size();i++)
        {
            matchValue = (float)TempleMatch(m_vecConfusingFeatureImage[i],imageROI,loc,CV_TM_CCOEFF_NORMED );
            if(matchValue > 0.95)
            {
                lastLoc = loc ;
                //纠正坐标
                lastLoc.x += ROI_Xstart;
                lastLoc.y += ROI_Ystart;
                lastLoc.x += (int)(m_vecConfusingFeatureImage[i].cols*0.5);
                lastLoc.y += (int)(m_vecConfusingFeatureImage[i].rows*0.3);
                //若是任务脚底的建筑,继续找
                if(calculateDistance(lastLoc,m_pLocPerson)<LowestThrel+30)
                {
                    lastLoc.x=0;
                    lastLoc.y=0;
                    continue;
                }
                matchSucceed = true;
                lastValue = matchValue;
                lastIndex = i;
    #ifdef DEBUG_SHOW_ImageMatch
                imshow("matchfeature",m_vecConfusingFeatureImage[i]);
                rectangle( imageROI,  Rect(loc,  Size(m_vecConfusingFeatureImage[i].cols, m_vecConfusingFeatureImage[i].rows) ), Scalar(0, 0, 255), 2, 8, 0 );
                imshow("SearchPerson",imageROI);
    #endif
                break;
            }
            else
            {
                vecCubePoint[i]=loc;
                vecCubeValue[i]=matchValue;
            }
        }
    
        if(!matchSucceed)
        {
            float bestValue=0;
            int bestIndex = 0;
            unsigned int i=0;
    
            bestValue = vecCubeValue[0];
            for(i=0;i<vecCubeValue.size();i++)
            {
                if(vecCubeValue[i]>bestValue)
                {
                    bestValue = vecCubeValue[i];
                    bestIndex = i;
                }
            }
    
    #ifdef DEBUG_SHOW_ImageMatch
            imshow("matchfeature",m_vecCubeFeatureImage[bestIndex]);
    #endif
            lastLoc = vecCubePoint[bestIndex];
            lastIndex=bestIndex;
        }
        return lastLoc;
    }
    /*******************************************************************************
    * Function Name  : calculateDistance
    * Description    : Temple match ,Get the best matching point and return it
    * Input          : None
    * Output         : None
    * Return         : Point:best matching point.
    *******************************************************************************/
    float ImageMatch::calculateDistance(Point A,Point B)
    {
        float distance;    
        distance = powf((float)(B.x - A.x),2) + powf((float)(B.y - A.y),2);    
        distance = sqrtf(distance);
        return distance;
    }
    /*******************************************************************************
    * Function Name  : TempleMatch
    * Description    : Temple match ,Get the best matching point and return it
    * Input          : None
    * Output         : None
    * Return         : Point:best matching point.
    *******************************************************************************/
    double ImageMatch::TempleMatch( Mat tepl ,Mat image, Point &point,int method)
    {
        int result_cols =  image.cols - tepl.cols + 1;
        int result_rows = image.rows - tepl.rows + 1;
    
        //模板检测
        Mat result =  Mat( result_cols, result_rows, CV_32FC1 );
        matchTemplate( image, tepl, result, method );
    
        //寻找最佳值
        double minVal, maxVal;
        Point minLoc, maxLoc;
        minMaxLoc( result, &minVal, &maxVal, &minLoc, &maxLoc, Mat() );
    
        //根据方法返回最佳值
        if(CV_TM_SQDIFF == method || CV_TM_SQDIFF_NORMED == method)
        {
            point =  minLoc;
            return minVal;
        }
        else
        {
            point = maxLoc;
            return maxVal;
        }
        return 0;
    }
    View Code

    ImageMatch.h为头文件

    #ifndef __IMAGEMATCH_H
    #define __IMAGEMATCH_H
    
    #include <opencv2/highgui/highgui.hpp>
    #include <opencv2/imgproc/imgproc.hpp>
    #include <opencv2/core/core.hpp>  
      
    #include <iostream> 
    #include <vector>  
    #include "TimeOperation.h"
      
    #define DEBUG_SHOW_ImageMatch
    
    using namespace std;
    using namespace cv;
    
    class ImageMatch
    {
    public:
        ImageMatch(Mat srcImage);
        ~ImageMatch();
        bool setSrcImage(Mat srcImage);
        bool addCubeFeatureImage(Mat image);
        bool addCubeFeatureImage(vector<Mat> vec);
        bool addConfusingFeatureImage(Mat image);
        bool addConfusingFeatureImage(vector<Mat> vec);
        bool setPersonFeature(Mat image);
    
        Mat runMatch();
        Mat changeSrcAndrunMatch(Mat srcImage);
        float getDistance();
    private:
        bool FeatureVectorChangeToEdgeVector();
        Mat AdjectDefinition(Mat srcImage,int contrast=100,int brightness=0);
        Mat calEdge(Mat srcImage,int threl);
        Mat FeatureMatchAndMark(Mat FeatureImage,Mat TargetImage);
        Point SearchPerson(Mat TargetImage,int ROI_Xstart,int ROI_Ystart,int ROI_length,int ROI_heigh );
        Point SearchBuilding(Mat TargetImage, int ROI_Xstart,int ROI_Ystart,int ROI_length,int ROI_heigh);
        float calculateDistance(Point A,Point B);
    private:
        double TempleMatch( Mat tepl ,Mat image, Point &point,int method);
    private:
        vector<Mat> m_vecCubeFeatureImage;
        vector<Mat> m_vecConfusingFeatureImage;
        vector<Mat> m_vecFeatureEdgeImage;
        unsigned int m_iFeatureMaxSize;
        Mat m_MatPersonFeatureImage;
        Mat m_MatSrcImage;
        Mat m_MatMatchImage;
        Mat m_MatDstImage;
        float m_fDistance;
        Point m_pLocPerson;
        Point m_pLocBlock;
    };
    
    
    #endif
    View Code

    SeralPort.cpp为串口相关内容,用于与下位机通信

    #include "SerialPort.h"
    
    
    /*******************************************************************************
    * Function Name  : SerialPort
    * Description    : open serial port.
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    SerialPort::SerialPort(int CommNumber,int BaudRate,int Parity ,int ByteSize , int StopBits )
    {
        //【0】预处理
        if(CommNumber<0 || BaudRate<0 || Parity<0 || ByteSize<0 || StopBits<0)
        {
            throw("SerialPort parameter wrong");
            return;
        }
        m_iComNumber = CommNumber;
    
        //int 2 str
        std::stringstream ss;
        std::string str;
        ss<<CommNumber;
        ss>>str;
    
        string strComNumber = "COM" + str;
        const  char *pComNumber =  strComNumber.c_str();
    
        //【1】打开串口
        m_cHCom = CreateFileA( pComNumber, GENERIC_READ | GENERIC_WRITE, 0, NULL, OPEN_EXISTING, 0, 0);
        //【1.5】超时处理
        COMMTIMEOUTS stTimeOuts;
        GetCommTimeouts(m_cHCom, &stTimeOuts);
        stTimeOuts.ReadIntervalTimeout = 0;
        stTimeOuts.ReadTotalTimeoutMultiplier = 0;
        stTimeOuts.ReadTotalTimeoutConstant = 1;
        stTimeOuts.WriteTotalTimeoutMultiplier = 0;
        stTimeOuts.WriteTotalTimeoutConstant = 0;
        if (!SetCommTimeouts(m_cHCom, &stTimeOuts))
        {
            throw("SerialPort openning time out");
            CloseHandle(m_cHCom);
            return;
        }
    
        //【2】取得并设置端口状态
        GetCommState(m_cHCom, &m_cDcb);
        m_cDcb.DCBlength = sizeof(DCB);
        m_cDcb.BaudRate = BaudRate;
        m_cDcb.Parity = Parity;  
        m_cDcb.ByteSize = ByteSize;
        m_cDcb.StopBits = StopBits;   
        if (!SetCommState(m_cHCom, &m_cDcb))
        {
            throw("SerialPort openning fail");
            CloseHandle(m_cHCom);
            return;
        }
    }
    
    SerialPort::~SerialPort( )
    {
        CloseHandle(m_cHCom);
    }
    
    /*******************************************************************************
    * Function Name  : SerialPort::send
    * Description    : serialPort send.
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool SerialPort::send(vector<unsigned char> vecSend)
    {
        DWORD dwWrittenLen;
        //【0】 把vector换成char*
        char *cSendBuff = new char[vecSend.size()];
        {
             memcpy(cSendBuff, &vecSend[0], vecSend.size()*sizeof(char));  
        }
    
        if(!WriteFile(m_cHCom,cSendBuff, vecSend.size(),&dwWrittenLen,NULL))  
        {  
            throw("Sending fail 1");
            return false;
        }     
        if(vecSend.size() != dwWrittenLen)
        {
            throw("Sending fail 2");
            return false;
        }
        return true;
    }
    
    /*******************************************************************************
    * Function Name  : SerialPort::send
    * Description    : serialPort send.
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool SerialPort::packAndsend(unsigned short data1)
    {
        const int PackageLength=15;
        const unsigned char PackHead1=0x55;
        const unsigned char PackHead2=0xaa;
    
        static unsigned char number = 0;
        
        unsigned short check=0;
        vector<unsigned char> vecForSend(PackageLength);
    
        //报头
        vecForSend[0] = PackHead1;
        vecForSend[1] = PackHead2;
        //序号
        vecForSend[2] = number++;
        //时间
        vecForSend[3] = (char)(data1>>8);
        vecForSend[4] = (char)data1;
    
        //校验
        for(int i=0;i<PackageLength-2;i++)
        {
            check += vecForSend[i];
        }
        vecForSend[13] = (char)(check>>8);
        vecForSend[14] = (char)check;
        
        //发送
        if(send(vecForSend))
        {
            return true;
        }
    
        return false;
    }
    View Code

    SeralPort.h为头文件

    #ifndef __SERIALPORT_H
    #define __SERIALPORT_H
    
    #include <windows.h>
    #include <iostream>
    #include <vector>
    #include <string>
    #include <sstream>
    
    using namespace std;
    
    class SerialPort
    {
    public:
        SerialPort(int CommNumber,int BaudRate = 9600,int Parity = 0,int ByteSize = 8, int StopBits = ONESTOPBIT);
        ~SerialPort();
    public:
        bool send(vector<unsigned char> vecSend);
        bool packAndsend(unsigned short data1);
    private:
        HANDLE m_cHCom;
        int m_iComNumber;
        DCB m_cDcb;
        vector<char> m_vecRecived;
    };
    
    
    #endif
    View Code

    TimeOperation.cpp用于计时、定时等操作

    #include "TimeOperation.h"
    
    using namespace std;
    
    TimeOperation::TimeOperation()
    {
        m_eSingleStopwatchState = STOPWATCH_STOP;
        m_eTimeOutDectectionState = TIMEOUTCLOCK_OFF;
    }
    
    
    TimeOperation::~TimeOperation()
    {
        
    }
    
    
    
    /*******************************************************************************
    * Function Name  : singleStopwatchRestart
    * Description    : restart stopwatch
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::singularStopwatchRestart()
    {
        m_eSingleStopwatchState = STOPWATCH_ON;
        GetLocalTime(&m_cStopwatchOrigin);
    
    
        //cout<<"start.wSecond:"<<m_cStopwatchOrigin.wMinute<<endl;
        //cout<<"start.wMilliseconds:"<<m_cStopwatchOrigin.wMilliseconds<<endl;
    
        return true;
    }
    /*******************************************************************************
    * Function Name  : singleStopwatchPause
    * Description    : pause stopwatch and get time (In Milliseconds).
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::singularStopwatchPause(int &ms)
    {
        if(STOPWATCH_ON != m_eSingleStopwatchState )
        {
            return false;
        }
    
        SYSTEMTIME EndTime;
        GetLocalTime(&EndTime);
    
        //cout<<"end.wSecond:"<<EndTime.wMinute<<endl;
        //cout<<"end.wMilliseconds:"<<EndTime.wMilliseconds<<endl;
    
        ms = EndTime.wMilliseconds-m_cStopwatchOrigin.wMilliseconds + ((EndTime.wSecond-m_cStopwatchOrigin.wSecond) + (EndTime.wMinute - m_cStopwatchOrigin.wMinute)*60)*1000;
    
        cout<<"ms:"<<ms<<endl;
    
        m_eSingleStopwatchState = STOPWATCH_PAUSE;
    
        return true;
    }
    /*******************************************************************************
    * Function Name  : singleStopwatchPause
    * Description    : pause stopwatch and get time (In Milliseconds).
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::TimeOutDectectionSetClock(SYSTEMTIME &setTime)
    {
        m_cTimeOutDectectionThrel = ((setTime.wHour*60+setTime.wMinute)*60+setTime.wSecond)*1000+setTime.wMilliseconds;
    
        //set now time
        SYSTEMTIME nowTime;
        GetLocalTime(&nowTime);
        m_cTimeOutDectectionStartTime = ((nowTime.wHour*60+nowTime.wMinute)*60+nowTime.wSecond)*1000+nowTime.wMilliseconds;
    
        m_eTimeOutDectectionState = TIMEOUTCLOCK_ON;
        return true;
    }
    /*******************************************************************************
    * Function Name  : TimeOutDectectionSetClock
    * Description    : pause stopwatch and get time (In Milliseconds).
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::TimeOutDectectionSetClock(int ms)
    {
        m_cTimeOutDectectionThrel = ms;
    
        SYSTEMTIME nowTime;
        GetLocalTime(&nowTime);
        m_cTimeOutDectectionStartTime = ((nowTime.wHour*60+nowTime.wMinute)*60+nowTime.wSecond)*1000+nowTime.wMilliseconds;
    
        m_eTimeOutDectectionState = TIMEOUTCLOCK_ON;
        return true;    
    }
    /*******************************************************************************
    * Function Name  : singleStopwatchPause
    * Description    : pause stopwatch and get time (In Milliseconds).
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::singularTimeOutDectectionCheckClock()
    {
        if( TIMEOUTCLOCK_OFF == m_eTimeOutDectectionState )
        {
            return false;
        }
    
        SYSTEMTIME nowTime;
        GetLocalTime(&nowTime);
        long int nowTime_ms=((nowTime.wHour*60+nowTime.wMinute)*60+nowTime.wSecond)*1000+nowTime.wMilliseconds;
    
        if( nowTime_ms -  m_cTimeOutDectectionStartTime> m_cTimeOutDectectionThrel)
        {
            m_eTimeOutDectectionState = TIMEOUTCLOCK_OFF;
            return true;
        }
        return false;
    }
    /*******************************************************************************
    * Function Name  : singleStopwatchPause
    * Description    : pause stopwatch and get time (In Milliseconds).
    * Input          : None
    * Output         : None
    * Return         : succeed/failed
    *******************************************************************************/
    bool TimeOperation::multipleTimeOutDectectionCheckClock()
    {
        if( TIMEOUTCLOCK_OFF == m_eTimeOutDectectionState )
        {
            return false;
        }
    
        SYSTEMTIME nowTime;
        GetLocalTime(&nowTime);
        long int nowTime_ms=(nowTime.wHour*60+nowTime.wMinute)*1000+nowTime.wMilliseconds;
    
        if( nowTime_ms > m_cTimeOutDectectionThrel)
        {
            return true;
        }
        return false;
    }
    View Code

    TimeOperation.h为头文件

    #ifndef __TIMEOPERATION_H
    #define __TIMEOPERATION_H
    #include <windows.h>
    #include <iostream>
    typedef enum
    {
        STOPWATCH_ON=0,
        STOPWATCH_PAUSE=1,
        STOPWATCH_STOP=2,
    }StopWatchState;
    
    
    typedef enum 
    {
        TIMEOUTCLOCK_OFF = 0,
        TIMEOUTCLOCK_ON = 1,
    }TimeDectionState;                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                                          
    
    class TimeOperation
    {
    public:
        TimeOperation();
        ~TimeOperation();
        //stopwatch
        bool singularStopwatchRestart();
        bool singularStopwatchPause(SYSTEMTIME &getTime);
        bool singularStopwatchPause(int &ms);
        //timeout detection
        bool TimeOutDectectionSetClock(SYSTEMTIME &setTime);
        bool TimeOutDectectionSetClock(int ms);
        bool singularTimeOutDectectionCheckClock();
        bool multipleTimeOutDectectionCheckClock();
    private:
        //stopwatch
        SYSTEMTIME m_cStopwatchOrigin;
        StopWatchState m_eSingleStopwatchState;
        //TimeOut clock
        long int m_cTimeOutDectectionThrel;
        long int m_cTimeOutDectectionStartTime;
        TimeDectionState m_eTimeOutDectectionState;
    };
    
    
    #endif
    View Code

    main.cpp主程序

    #include "main.h"
    
    using namespace cv;
    using namespace std;
    
    typedef enum
    {
        Step_ReadCammer = 0,
        Step_CorrectScreen = 1,
        Step_MatchFeature = 2,
        Step_Communication = 3,
        Step_FastReadCammer =4,
        Step_FastCorrectScreen =5,
    }mainFunctionStep;
    
    
    
    vector<Mat> vecFeature;
    vector<Mat> vecConfusingFeature;
    
    void preconditioning(void)
    {
        string Suffix = ".png";
    
        for(int i=1;i<50;i++)
        {
            //int 2 str
            stringstream ss;
            string index;
            ss<<i;
            ss>>index;
    
            string name = index+Suffix;
    
            Mat Img=imread(name,CV_LOAD_IMAGE_GRAYSCALE);
            //Mat Img=imread(name);
            if( !Img.data )
            {
                break;
            }
            vecFeature.push_back(Img);//添加灰度特征
        }    
    
        for(int i=101;i<150;i++)
        {
            //int 2 str
            stringstream ss;
            string index;
            ss<<i;
            ss>>index;
    
            string name = index+Suffix;
    
            Mat Img=imread(name,CV_LOAD_IMAGE_GRAYSCALE);
            //Mat Img=imread(name);
            if( !Img.data )
            {
                break;
            }
            vecConfusingFeature.push_back(Img);//添加灰度特征
        }    
        
    }
    
    int main()
    {
        Mat g_srcImage;
        Mat g_extractImage;
        float distance;
        SerialPort *c_COM3;
        mainFunctionStep step = Step_ReadCammer;
        //mainFunctionStep step  = Step_Communication;
    
        //创建校正对象
        ScreenExtract Screen;
    
        //加载图片
        preconditioning();
    
        //打开串口
        try
        {
            c_COM3 = new SerialPort(3,115200);
        }
        catch(char *s)
        {
            return -1; 
        }
            
    
        //打开摄像头
        VideoCapture cap(0);  
        if(!cap.isOpened())  
        {  
            return -1;  
        }  
        cap.set(CV_CAP_PROP_FRAME_WIDTH, CammerWidth);  
        cap.set(CV_CAP_PROP_FRAME_HEIGHT, CammerHeigh);  
    
        while(1)
        {
            if( Step_ReadCammer == step )
            {
                //【0】读取测试图片
                //g_srcImage = imread("2.jpg");
                //if(!g_srcImage.data)
                //{
                //    printf("Err");
                //}
                ////namedWindow("【原始图】");
                ////imshow("【原始图】",g_srcImage);
    
                //【0】读取摄像头
                while(1)
                {
                    cap>>g_srcImage;
                    imshow("vedio",g_srcImage);
                    if((char(waitKey(1))=='q'))
                    {
                        break;
                    }
                }
                step = Step_CorrectScreen;
            }
            else if( Step_CorrectScreen == step)
            {
                //【1】屏幕提取矫正
                Screen.setSrc(g_srcImage);
                Screen.runExtract();
                try
                {
                    g_extractImage = Screen.getDst();
                }
                catch(char *s)
                {
                    if(s == "Extract fail")//提取失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                imshow("结果",g_extractImage);
                step = Step_MatchFeature;
            }
            else if( Step_MatchFeature == step )
            {
                //【2】特征提取匹配
                Mat featureImage1 = imread("小人无背景.png");
                if(!featureImage1.data)
                {
                    printf("featureImage1");
                    return 0;
                }
                //imshow("素材",featureImage1);
    
                ImageMatch match(g_extractImage);
                //加入素材特征
                match.setPersonFeature( featureImage1 );
                match.addCubeFeatureImage(vecFeature);
                match.addConfusingFeatureImage(vecConfusingFeature);
    
                //运行匹配
                try
                {
                    match.runMatch();
                }
                catch(char *s)
                {
                    if(s == "Person match fail")//小人匹配失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                    else if(s == "Block match fail")//方块匹配失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                distance = match.getDistance();
    
                step = Step_Communication;
            }
            else if( Step_Communication == step)
            {
                //for(;;)
                //{
                //    int ms;
                //    TimeOperation time;
                //    time.singularStopwatchRestart();
                //    c_COM3->packAndsend(5000);
                //    waitKey(1000);
                //    time.singularStopwatchPause(ms);
                //    cout<<"ms"<<ms<<endl;
                //}
                c_COM3->packAndsend((unsigned short)distance);
                step = Step_FastReadCammer;
                waitKey(100);
            }
            else if( Step_FastReadCammer == step)
            {
                TimeOperation time;
                time.TimeOutDectectionSetClock(2*distance+2000);
                //【0】读取摄像头
                while(1)
                {
                    cap>>g_srcImage;
                    imshow("vedio",g_srcImage);
                    if( time.singularTimeOutDectectionCheckClock())
                    {
                        break;
                    }
                    else if((char(waitKey(1))=='q'))
                    {
                        break;
                    }
                }
                step = Step_FastCorrectScreen;
            }
            else if( Step_FastCorrectScreen == step)
            {
                //【1】屏幕提取矫正
                Screen.runFastExtract(g_srcImage);
                try
                {
                    g_extractImage = Screen.getDst();
                }
                catch(char *s)
                {
                    if(s == "Extract fail")//提取失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                imshow("结果",g_extractImage);
                step = Step_MatchFeature;
            }
        }
        while((char(waitKey(1))!='q'))
        {}
        return 0;
    }
    View Code

    main.h头文件

    #ifndef __MAIN_H
    #define __MAIN_H
    #include <opencv2/highgui/highgui.hpp>
    #include <opencv2/imgproc/imgproc.hpp>
    #include "ScreenExtraction.h"
    #include "ImageMatch.h"
    #include "SerialPort.h"
    #include "TimeOperation.h"
    
    #define DEBUG_SHOW_MAIN
    #define CammerWidth 1280
    #define CammerHeigh 720
    
    #endif
    View Code

    模板匹配的素材下载:

    链接:https://pan.baidu.com/s/1c3YXygC 密码:oeal



    三、关键程序记录

    3.1主程序的步骤

    1、预处理(加载图片用于模板匹配)

    void preconditioning(void)
    {
        string Suffix = ".png";
    
        for(int i=1;i<50;i++)
        {
            //int 2 str
            stringstream ss;
            string index;
            ss<<i;
            ss>>index;
    
            string name = index+Suffix;
    
            Mat Img=imread(name,CV_LOAD_IMAGE_GRAYSCALE);
            //Mat Img=imread(name);
            if( !Img.data )
            {
                break;
            }
            vecFeature.push_back(Img);//添加灰度特征
        }    
    
        for(int i=101;i<150;i++)
        {
            //int 2 str
            stringstream ss;
            string index;
            ss<<i;
            ss>>index;
    
            string name = index+Suffix;
    
            Mat Img=imread(name,CV_LOAD_IMAGE_GRAYSCALE);
            //Mat Img=imread(name);
            if( !Img.data )
            {
                break;
            }
            vecConfusingFeature.push_back(Img);//添加灰度特征
        }    
        
    }
    View Code

    2、打开摄像头、串口

        //打开串口
        try
        {
            c_COM3 = new SerialPort(3,115200);
        }
        catch(char *s)
        {
            return -1; 
        }
            
    
        //打开摄像头
        VideoCapture cap(0);  
        if(!cap.isOpened())  
        {  
            return -1;  
        }  
        cap.set(CV_CAP_PROP_FRAME_WIDTH, CammerWidth);  
        cap.set(CV_CAP_PROP_FRAME_HEIGHT, CammerHeigh);  
    View Code

    3、主循环部分,在以下5种状态中切换

    typedef enum
    {
        Step_ReadCammer = 0,
        Step_CorrectScreen = 1,
        Step_MatchFeature = 2,
        Step_Communication = 3,
        Step_FastReadCammer =4,
        Step_FastCorrectScreen =5,
    }mainFunctionStep;
    • Step_ReadCammer:读取摄像头,在此状态中读取摄像头数据显示到屏幕上,等待用户开始程序:
    • Step_CorrectScreen:矫正屏幕,在此状态中进行屏幕的边缘识别、屏幕内容提取矫正等操作:
    • Step_MatchFeature:匹配特征,在此状态中进行识别操作,识别人物、方块
    • Step_Communication :进行通信,告诉下位机需要点击多长时间
    • Step_FastReadCammer:快速读取摄像头,此步骤与第一步基本相同,不过不需要在进行人为干预,程序会快速读取图像进行处理
    • Step_FastCorrectScreen:快速矫正屏幕,此步骤与第二步相似,但不再做边缘识别角点检测等操作,会跟据第二步的记录数据进行快速矫正
    while(1)
        {
            if( Step_ReadCammer == step )
            {
                //【0】读取测试图片
                //g_srcImage = imread("2.jpg");
                //if(!g_srcImage.data)
                //{
                //    printf("Err");
                //}
                ////namedWindow("【原始图】");
                ////imshow("【原始图】",g_srcImage);
    
                //【0】读取摄像头
                while(1)
                {
                    cap>>g_srcImage;
                    imshow("vedio",g_srcImage);
                    if((char(waitKey(1))=='q'))
                    {
                        break;
                    }
                }
                step = Step_CorrectScreen;
            }
            else if( Step_CorrectScreen == step)
            {
                //【1】屏幕提取矫正
                Screen.setSrc(g_srcImage);
                Screen.runExtract();
                try
                {
                    g_extractImage = Screen.getDst();
                }
                catch(char *s)
                {
                    if(s == "Extract fail")//提取失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                imshow("结果",g_extractImage);
                step = Step_MatchFeature;
            }
            else if( Step_MatchFeature == step )
            {
                //【2】特征提取匹配
                Mat featureImage1 = imread("小人无背景.png");
                if(!featureImage1.data)
                {
                    printf("featureImage1");
                    return 0;
                }
                //imshow("素材",featureImage1);
    
                ImageMatch match(g_extractImage);
                //加入素材特征
                match.setPersonFeature( featureImage1 );
                match.addCubeFeatureImage(vecFeature);
                match.addConfusingFeatureImage(vecConfusingFeature);
    
                //运行匹配
                try
                {
                    match.runMatch();
                }
                catch(char *s)
                {
                    if(s == "Person match fail")//小人匹配失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                    else if(s == "Block match fail")//方块匹配失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                distance = match.getDistance();
    
                step = Step_Communication;
            }
            else if( Step_Communication == step)
            {
                //for(;;)
                //{
                //    int ms;
                //    TimeOperation time;
                //    time.singularStopwatchRestart();
                //    c_COM3->packAndsend(5000);
                //    waitKey(1000);
                //    time.singularStopwatchPause(ms);
                //    cout<<"ms"<<ms<<endl;
                //}
                c_COM3->packAndsend((unsigned short)distance);
                step = Step_FastReadCammer;
                waitKey(100);
            }
            else if( Step_FastReadCammer == step)
            {
                TimeOperation time;
                time.TimeOutDectectionSetClock(2*distance+000);
                //【0】读取摄像头
                while(1)
                {
                    cap>>g_srcImage;
                    imshow("vedio",g_srcImage);
                    if( time.singularTimeOutDectectionCheckClock())
                    {
                        break;
                    }
                    else if((char(waitKey(1))=='q'))
                    {
                        break;
                    }
                }
                step = Step_FastCorrectScreen;
            }
            else if( Step_FastCorrectScreen == step)
            {
                //【1】屏幕提取矫正
                Screen.runFastExtract(g_srcImage);
                try
                {
                    g_extractImage = Screen.getDst();
                }
                catch(char *s)
                {
                    if(s == "Extract fail")//提取失败
                    {
                        step = Step_ReadCammer;
                        continue;
                    }
                }
    
                imshow("结果",g_extractImage);
                step = Step_MatchFeature;
            }
        }
    View Code

    3.2关键处理:屏幕识别与提取

    在ScreenExtraction类中实现了屏幕识别与提取

    其中runExtract()方式为第一次识别时的操作。

    runFastExtract()为第二次及以后操作,使用上一次runExtract()中储存的数据,只会保留透视变换操作。

    Mat ScreenExtract::runExtract()
    {
        int cannyThrel=100;
        int failCNT=0;
        while(1)
        {
            m_MatEdgeImage = EdgeDection(m_MatEdgeImage,cannyThrel);
            m_MatHoughImage = HoughLine(m_MatEdgeImage);
            m_MatCornerImage = CornerHarris(m_MatHoughImage,m_PointPerspectiveSrcBuff);
            if(failCNT>20)
            {
                throw("Extract fail");
                return m_MatSrcImage;
            }
            if(m_PointPerspectiveSrcBuff.size() == 8)
            {
                break;
            }
            else if(m_PointPerspectiveSrcBuff.size()>8)
            {
                if(cannyThrel<500)
                {
                    cannyThrel+=20;
                }
                failCNT++;
            }
            else if(m_PointPerspectiveSrcBuff.size()<8)
            {
                if(cannyThrel>10)
                {
                    cannyThrel-=5;
                }
                failCNT++;
            }
            waitKey(10);
        }
    
        m_MatDstImageLie = perspectiveChange(m_MatSrcImage,m_PointPerspectiveSrcBuff);
        m_MatDstImageStand = rotation(m_MatDstImageLie,90);
        return m_MatDstImageStand;
    } 
    View Code

    runExtract()思路如下:

    • 使用Canny边缘检测绘制摄像头的所有边缘。
    • 使用霍夫变换勾勒出4条边,所构成的矩形为屏幕部分。
    • 使用角点检测找到图片中的角点,并使用circle()函数把所有角点变为实心圆形,此时在附近的角点会连成一个很大的点,图中会剩下4个大点(如图红点)。
    • 使用边缘检测对上一步的图操作,并求出质心,效果如图绿点。
    • 使用warpPerspective()等函数进行透视变换,还原屏幕。
    • 在上述操作中,很容易出现检测失败,屏幕中多了很多点等等情况,当检测失败时,自动调整第一步中Canny的阈值,重新进行边缘检测

     

     

    3.3关键处理:识别小人和方块

    识别函数在ImageMatch类中。

    预先使用Photoshop提取小人和方块的图片,一张一张进行对比,选出匹配度比较高的一张,事实证明,这样做太麻烦,这个方法实在太蠢,识别率也低,以后再改成别的。

    据不完全统计,游戏中的方块有如下种类,提取了一些比较特征,可以在以下素材图片第三节中的连接中下载

     

    runMatch()函数操作思路:

    • 匹配小人,计算小人的脚底坐标(如图红圈)。
    • 判断小人处于屏幕的左边还是右边,我们只需要搜索一边,缩小搜索范围减少计算量(例如在下图中,小人站在屏幕的左半区,方块匹配只需要搜索屏幕的右半区)。
    • 为了减少匹配时间,将裁减好的图转为灰度图,循环使用模板匹配上面的模板、挑出匹配率高的模板、计算方块表面中心点坐标(如图方框为识别最高的模板,和绿色圈为方块表面的中心点)。在实际匹配中发现有些方块靠的很近会被遮挡(如下图的闹钟左边被档),容易造成匹配失败,所以匹配失败的时候用那些模板的左/右半边进行再次匹配。
    • 对于容易出错的模板,单独分开来最后识别,并提高阈值。
    • 若上述操作都没高匹配的图片出现,则选择匹配度最高的一个。
    • 计算小人和方块的距离(红圈和绿圈的距离)。

     

    3.3其他程序

    距离和按压时间的转换

      一次函数y=ax+b,实际使用需要根据下位机误差调整

    float ImageMatch::getDistance()
    {
        float result = m_fDistance*2.1f+0;
        if(result<0)
            result=0;
        return result;
    }

    计时类TimeOperation.cpp:

    通过获取Windows的时间函数GetLocalTime()为基础,实现两个功能

    1. 秒表(红色):用来计算某部分程序的运行时间,看看用时多久。
    2. 等待超时(蓝色):在串口发送后,需要等待一段时间才进行下一次获取,使用等待超时功能。

     串口类 SerialPort.cpp:

    class SerialPort
    {
    public:
        SerialPort(int CommNumber,int BaudRate = 9600,int Parity = 0,int ByteSize = 8, int StopBits = ONESTOPBIT);
        ~SerialPort();
    public:
        bool send(vector<unsigned char> vecSend);
        bool packAndsend(unsigned short data1);
    private:
        HANDLE m_cHCom;
        int m_iComNumber;
        DCB m_cDcb;
        vector<char> m_vecRecived;
    };
    View Code

    用于打开关闭串口、数据打包发送等等。使用的通信协议如下(十六进制表示)

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  • 原文地址:https://www.cnblogs.com/HongYi-Liang/p/8299460.html
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