Abstract
With the development of urban economic construction and urban planning, higher requirements are put forward for the government community in the corresponding community management, community service, and other related things. As an important technical means to assist the government and community in management, video recognition technology plays an important role in the accurate management and service of the government and community. Traditional algorithms based on partial differential equations will destroy image edges and image details in video recognition. Based on this, this paper improves the traditional partial differential equation algorithm of image recognition, selects the GAC model based on image segmentation in the main function, and innovatively optimizes the stop function of its equation function, so as to improve the effect of community case image segmentation. In the image smoothing layer, this paper innovatively selects the second derivative based on image processing as the inherent feature of image recognition, so as to solve the rough problem of image edge and improve the processing efficiency of the algorithm. In order to further maintain the details of the relevant images of community cases, this paper integrates the Gaussian curvature driving function on the improved partial differential equation algorithm, so as to protect the details of the smooth region of the relevant recognition video and solve the disadvantages of the traditional algorithm. The experimental results show that the improved partial differential equation algorithm proposed in this paper improves the accuracy of video recognition by about 5% compared with the traditional algorithm. At the same time, the new algorithm can well ensure the detail integrity of the recognized video.
Highlights
The digitization of government community management is the trend of community development
The conventional partial differential equation processing algorithm can give the continuity model of the recognized image or video, so as to transform the processing process corresponding to the processed image into an image processing problem varying with time, so that the gray level corresponding to the corresponding recognized image depends on a mathematical partial differential function and realize the connection of the image physical process through continuous iteration, so as to visually analyze the gradient, level set, curvature, and other features of the corresponding video or image
In view of the disadvantages of the above traditional partial differential equation in video or image processing, this paper will improve the traditional partial differential equation image recognition algorithm, select the GAC model based on image segmentation on the main function, and optimize its corresponding stop function, so as to improve its corresponding image segmentation effect; at the level of image smoothing, this paper selects the second derivative based on image processing as the inherent feature of the recognition image, so as to solve the rough problem of image edge and improve the processing efficiency of the algorithm
Summary
The digitization of government community management is the trend of community development. The conventional partial differential equation processing algorithm can give the continuity model of the recognized image or video, so as to transform the processing process corresponding to the processed image into an image processing problem varying with time, so that the gray level corresponding to the corresponding recognized image depends on a mathematical partial differential function and realize the connection of the image physical process through continuous iteration, so as to visually analyze the gradient, level set, curvature, and other features of the corresponding video or image. The traditional partial differential equation algorithm has good adaptability in the corresponding local video processing It can protect the image texture and edge details while processing the video or image [16, 17].
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.