手指运动跟踪人类的手使用智能摄像头来控制Allegro hand机器人

Naji Guedri, Rached Gharbi
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引用次数: 1

摘要

手势是人类最丰富的交流方式之一。因此,自动手部检测和手指行为是机器人视觉中最引人注目的挑战之一。最近,在编程中使用了许多想法和技术来使用相机识别人手的手指并将其应用于机器人。在本文中;该创新算法基于智能思想,主要依靠相机拍摄后的图像分析。为了通过相机识别手的手指,这个想法是将每个手指分配到代表手指面积的二值图像的像素百分比中。每个比率与实时图像进行比较,以确定用户选择了哪些手指来控制Allegro Hand机器人。同样在这个作品中,手可以在相机前自由移动,依靠一种测量手和相机之间距离的新想法。我们为此使用了一个几何形状的正方形小票子,颜色不同于黑白。这张票贴在用户的手背上,通过它我们可以知道手的大小,而不管图像的z轴上的距离。这对于根据与相机的距离确定手指的比例是很重要的。相机在这里结合了手人和快板手,确保更多的互动交流,和谐和更容易。智能相机的结果是通过机器人手的多次实验来测试的。在镜头前,许多手指的位置被正确地识别出来。
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Finger movements tracking of the human hand using the smart camera to control the Allegro Hand robot
Gestures are one of the richest ways of communication that humans have. Therefore, automated hand detection and finger behavior are some of the most compelling challenges in robot vision. Recently, many ideas and technologies have been used in programming to use cameras to recognize the fingers of human hands and apply them to robots. In this paper; the innovative algorithm is based on intelligent ideas and mainly relies on image analysis after camera shooting. In order to identify the fingers of the hand by a camera, the idea is to assign each finger to a percentage in pixels of the binary image, which represents the area of the finger. Each ratio compares to the live image to determine which fingers the user has chosen to control the Allegro Hand robot. Also in this work, the hand can move freely in front of the camera, relying on a new idea of measuring the distance between the hand and the camera. We use for this a small ticket in geometric form square and color different to black and white. This ticket is affixed to the back of the user's hand and through which we can know the size of the hand, regardless of the distance on the Z-axis of the image. This is important in determining the proportions of the fingers according to the distance from the camera. The camera is here combined with a hand human and Allegro Hand to ensure more interactive communication, harmony and easier. The result of the smart camera is tested with multiple experimental trials with a robotic hand. Many finger positions were identified correctly in front of the camera.
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