Rapid retrograde detecting and tracking monitoring method under complex environment

A technology for detection and tracking, complex environment, applied in image data processing, instrument, character and pattern recognition, etc.

A technology for detection and tracking, complex environment, applied in image data processing, instrument, character and pattern recognition, etc.

CN104200490AInactive Publication Date: 2014-12-10SOUTH CHINA UNIV OF TECH
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  • Rapid retrograde detecting and tracking monitoring method under complex environment
  • Rapid retrograde detecting and tracking monitoring method under complex environment
  • Rapid retrograde detecting and tracking monitoring method under complex environment

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Embodiment Construction

[0036] The present invention will be further described in detail below in conjunction with the embodiments and the accompanying drawings, but the embodiments of the present invention are not limited thereto.

[0037] Such as figure 1 , a fast retrograde detection and tracking monitoring method in a complex environment, specifically comprising steps in the following order:

[0038] A. Obtain the video frame of the monitoring area through the security camera;

[0039] B. First, extract the foreground of the moving target through the inter-frame difference method, and then perform binarization processing, median filtering and morphological operations on the difference image in turn, and then the moving area can be obtained; then use the Shi-Tomasi algorithm to detect the strong foreground target Corner points, get the set of strong corner points: Point{P 1 (x 1 ,y 1 ),P 2 (x 2 ,y 2 ),…,P i(x i ,y i )}, where i≥0, when i is 0, the set is φ; the optical flow field of each...

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Abstract

The invention discloses a rapid retrograde detecting and tracking monitoring method under complex environment, and the method comprises the following steps of: extracting moving objective foreground from video frames through a inter-frame difference method, then calculating an optical flow field at each point from the strong corner set of future objectives to obtain the optical flow field set; judging whether a moving direction of the strong corner is within the set retrograde direction and its allowance: if so, recording these points, forming the retrograde point set, and giving a rapid detection warning, at the same time, precisely warning by tracking to judge whether retrograde events are occurred, obtaining the strong corner set required for being tracked, calculating the optical flow field set on each point, upon existence of the retrograde point set, finding out a tracking starting point corresponding to each point from the point set, and drawing up tracking paths; upon completion of tracking, when the amount of paths in a retrograde status is less than a decision threshold, judging rapid warning as a false alarm, otherwise, generating retrograde events. Tracking and precise warning are introduced into the method such that the accuracy rate of the retrograde detection is greatly improved.

Description

technical field [0001] The invention relates to the field of security monitoring, in particular to a fast retrograde detection, tracking and monitoring method in complex environments. Background technique [0002] With the rapid development of domestic modern dialects, human society has higher and higher demands on personal and property safety. In one-way passages, especially in areas where people and vehicles gather, retrograde events are extremely dangerous, causing traffic jams and even accidents. The main task of retrograde detection is to perform real-time retrograde detection of moving targets such as people, objects or vehicles in the monitoring scene, issue an alarm and trigger other related actions. Commonly used retrograde detection methods are as follows: [0003] (1) The retrograde detection method based on optical flow, which can detect the movement of objects, but is sensitive to noise (such as arm swing, lighting, etc.) interference, and is prone to false po...

Claims

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Application Information

Patent Timeline
10 Dec 2014
Publication
CN104200490A
IPC
G06T7/20; G06K9/46; H04N7/18
Inventors
李远清; 赵连超