针对普通摄像头手势识别系统易受复杂环境和光照条件等因素影响,存在对指尖点的漏判、误判问题,提出一种基于Kinect骨骼信息与深度图像的掌心点提取和指尖点检测的手势识别方法;在DRVI平台上创建Kinect的接口控件,对Kinect传感器获取人...针对普通摄像头手势识别系统易受复杂环境和光照条件等因素影响,存在对指尖点的漏判、误判问题,提出一种基于Kinect骨骼信息与深度图像的掌心点提取和指尖点检测的手势识别方法;在DRVI平台上创建Kinect的接口控件,对Kinect传感器获取人体骨骼信息和深度图像进行分析,采用了坐标映射、图像分割、距离变换的关键技术和方法从深度图中分割出手势部分区域,对手势区域形态学处理,结合凸包和K-曲率算法检测不同手势中指尖点的个数和位置,计算不同手势凸包轮廓上的点集生成的HOG (Histogram of Oriented Gradient)特征描述子,最后利用特征描述子对预定的6种数字手势进行识别;经实验测试可以在复杂环境和不同光照情况下正确识别指尖点。展开更多
Leukaemia is a type of blood cancer that is caused by undeveloped White Blood Cells(WBC),and it is also called a blast blood cell.In the marrow of human bones,leukaemia is developed and is responsible for blood cell g...Leukaemia is a type of blood cancer that is caused by undeveloped White Blood Cells(WBC),and it is also called a blast blood cell.In the marrow of human bones,leukaemia is developed and is responsible for blood cell generation with leukocytes and WBC,and if any cell gets blasted,then it may become a cause of death.Therefore,the diagnosis of leukaemia in its early stages helps greatly in the treatment along with saving human lives.Subsequently,in terms of detection,image segmentation techniques play a vital role,and they turn out to be the important image processing steps for the extraction of feature patterns from the Acute Lymphoblastic Leukaemia(ALL)type of blood cancer.Moreover,the image segmentation technique focuses on the division of cells by segmenting a microscopic image into background and cancer blood cell nucleus,which is well-known as the Region Of Interest(ROI).As a result,in this article,we attempt to build a segmentation technique capable of solving blood cell nucleus segmentation issues using four distinct scenarios,including K-means,FCM(Fuzzy Cmeans),K-means with FFA(Firefly Algorithm),and FCM with FFA.Also,we determine the most effective method of blood cell nucleus segmentation,which we subsequently use for the Leukaemia classification model.Finally,using the Convolution Neural Network(CNN)as a classifier,we developed a leukaemia cancer classification model from the microscopic images.The proposed system’s classification accuracy is tested using the CNN to test the model on the ALL-IDB dataset and equate it to the current state of the art.In terms of experimental analysis,we observed that the accuracy of the model is near to 99%,and it is far better than other existing models that are designed to segment and classify the types of leukaemia cancer in terms of ALL.展开更多
文摘针对普通摄像头手势识别系统易受复杂环境和光照条件等因素影响,存在对指尖点的漏判、误判问题,提出一种基于Kinect骨骼信息与深度图像的掌心点提取和指尖点检测的手势识别方法;在DRVI平台上创建Kinect的接口控件,对Kinect传感器获取人体骨骼信息和深度图像进行分析,采用了坐标映射、图像分割、距离变换的关键技术和方法从深度图中分割出手势部分区域,对手势区域形态学处理,结合凸包和K-曲率算法检测不同手势中指尖点的个数和位置,计算不同手势凸包轮廓上的点集生成的HOG (Histogram of Oriented Gradient)特征描述子,最后利用特征描述子对预定的6种数字手势进行识别;经实验测试可以在复杂环境和不同光照情况下正确识别指尖点。
基金Supported by the National Natural Science Foundation of China(61701069)the Fundamental Research Funds for the Central Univer⁃sities of China(3132019340,3132019200).
基金We deeply acknowledge Taif University for supporting this study through Taif University Researchers Supporting Project number(TURSP-2020/115),Taif University,Taif,Saudi Arabia.
文摘Leukaemia is a type of blood cancer that is caused by undeveloped White Blood Cells(WBC),and it is also called a blast blood cell.In the marrow of human bones,leukaemia is developed and is responsible for blood cell generation with leukocytes and WBC,and if any cell gets blasted,then it may become a cause of death.Therefore,the diagnosis of leukaemia in its early stages helps greatly in the treatment along with saving human lives.Subsequently,in terms of detection,image segmentation techniques play a vital role,and they turn out to be the important image processing steps for the extraction of feature patterns from the Acute Lymphoblastic Leukaemia(ALL)type of blood cancer.Moreover,the image segmentation technique focuses on the division of cells by segmenting a microscopic image into background and cancer blood cell nucleus,which is well-known as the Region Of Interest(ROI).As a result,in this article,we attempt to build a segmentation technique capable of solving blood cell nucleus segmentation issues using four distinct scenarios,including K-means,FCM(Fuzzy Cmeans),K-means with FFA(Firefly Algorithm),and FCM with FFA.Also,we determine the most effective method of blood cell nucleus segmentation,which we subsequently use for the Leukaemia classification model.Finally,using the Convolution Neural Network(CNN)as a classifier,we developed a leukaemia cancer classification model from the microscopic images.The proposed system’s classification accuracy is tested using the CNN to test the model on the ALL-IDB dataset and equate it to the current state of the art.In terms of experimental analysis,we observed that the accuracy of the model is near to 99%,and it is far better than other existing models that are designed to segment and classify the types of leukaemia cancer in terms of ALL.