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Multi-posture fingertip tracking method for natural man-machine interaction

A technology of human-computer interaction and multi-gesture, which is applied to the input/output of user/computer interaction, computer components, mechanical mode conversion, etc. Issues such as range of motion limitations

Active Publication Date: 2016-07-06
UNIV OF ELECTRONICS SCI & TECH OF CHINA
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

On the basis of the current technology, there is a method of human-computer interaction and control by detecting and tracking the skeletal points of the hand joints, but this large-scale hand movement has two important shortcomings. feel tired soon
The second is that this interaction method is not natural enough, and it cannot express well for some fine trajectories.
For mode switching, he uses the angle between the line connecting the palm and fingertips and the line connecting the arm point and the palm as the switching condition, which will limit the range of motion of the hand, and in many cases does not meet The assumptions of this conversion model

Method used

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Embodiment Construction

[0051] Further describe the technical scheme of the present invention in detail below in conjunction with accompanying drawing:

[0052] The RGBD sensor is used to collect depth information and color information, and then the hand area detection and specific gesture recognition are performed according to these two information, and the fingertip detection and tracking are performed on this premise. The hand area detection module converts the color to a space that does not respond significantly to brightness through the conversion of the color space to detect the skin color area, and then detects the face through the face detection algorithm to exclude the face area to obtain the hand area. The specific gesture detection module mainly uses depth information, combined with HOG features and SVM classifiers to identify and detect. The fingertip tracking module mainly uses the position of the fingertip in the previous few frames combined with the area recognized by the hand to predi...

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Abstract

The present invention discloses a multi-posture fingertip tracking method for natural man-machine interaction. The method comprises the following steps: S1: acquiring RGBD data by adopting Kinect2, including depth information and color information; S2: detecting a hand region: by means of conversion of a color space, converting a color into a space that does not obviously react to brightness so as to detect a complexion region, then detecting a human face by means of a human face detection algorithm, so as to exclude the human face region and obtain the hand region, and calculating a central point of a hand; S3: by means of the depth information and in combination with an HOG feature and an SVM classifier, identifying and detecting a specific gesture; and S4: by means of positions of preceding frames of fingertips and in combination with an identified region of the hand, performing prediction on a current tracking window, and then detecting and tracking a fingertip by means of two modes, i.e. a depth-based fingertip detection mode and a form-based fingertip detection mode. The method disclosed by the present invention is mainly used for performing detection and tracking on a single fingertip under motion and various postures, and relatively high precision and real-time property need to be ensured.

Description

technical field [0001] The invention relates to a multi-pose fingertip tracking method for natural human-computer interaction. Background technique [0002] Human-computer interaction (Human-Computer Interaction, HCI) is the study of communication and communication between humans and computers through mutual understanding. A technical science of assistants. 3D fingertip detection and tracking technology is an important branch of human-computer interaction technology. It realizes detection and tracking by describing the shape and characteristics of fingertips, and realizes the control of other devices and systems. The biggest advantage of this technology is that it can realize interaction through very natural fingertip movements, such as replacing electronic pens and controlling other external devices. On the basis of the current technology, there is a method of human-computer interaction and control by detecting and tracking the skeletal points of the hand joints, but this...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G06F3/01G06K9/00
CPCG06F3/017G06V40/28G06V40/113
Inventor 程洪唐竟人姬艳丽李昊鑫
Owner UNIV OF ELECTRONICS SCI & TECH OF CHINA
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