12/07/2019
wellapets
.net, 2019, 2019 android apps, 2019-2020, 2020, Android, Android (Operating System), android (software), android 10, android 2019, android 6.0 sdk, android app, android app bundle, android app development, android app development kit, android app development tutorial, Android app ideas, Android app ideas 2019, Android app ideas 2020, Android app ideas for beginners, Android app ideas for college project, Android app ideas for students, android app making, Android app project, Android app project ideas, Android app projects, android app tutorial, android apps, android apps 2019, android based os, Android based projects, android development, android lollipop, Android mini project topics, Android Mini Projects, android nougat, android on pc, android oreo, android os, android os on pc, Android php projects, android platform architecture, Android Project, Android Project Ideas, Android project ideas 2019, Android project ideas for beginners, Android project ideas for computer science, Android project ideas for students, Android Project Ideas Of 2019, Android Project Ideas Of 2020, Android project ideas with source code, Android Project Titles, Android project topics, Android project with source code, Android project with source code for students, Android Projects, Android Projects For Final Year, Android Projects Ideas, Android projects list, Android Projects Topics, Android Projects With Source Code, android sdk, Android Studio, android studio app development, Android Studio Project, Android Studio Tutorial, Android Tutorial, android versions, android vs iphone, android x86, app, app development, apps for android, best android, best android apps, best android apps 2019, best android os, best android os for pc, best apps for android, best free android apps, Capstone Project Titles, Create Android Project, EEE, Final Year Android Project Titles, Final Year Android Projects, free android app, free android apps, free php projects, Hosur, How To Create New Android Studio Project 2019 2020, how to make an app, how to make android apps, how to make android apps for beginners, Ieee Projects, Ieee Projects Php, In Your Android Project, Java, Kumbakonam, learn android development, learn php, learning android app development, make android app, Mannargudi, Mayiladuthurai, Mca Android Projects, Mca final year projects, Mca final year projects titles, Mca mini project titles with abstract, Mca project ideas, Mca project titles, Mca project topics, Mca projects in android, Mca projects in php, Mca Projects Titles, migliori app android, Mini project topics for mca, Mini projects for mca 5th sem, new android apps, new php project ideas, nodejs vs php, os, PHP, php 2019, php 7, php agency, php books, php college project, php first project, php for beginners, php in 2019, php language, php mysql, php programming, php project, php project code, php project ideas, php project ideas 2018, php project source code, Php Project Titles, Php project topics, Php project topics for mca, php project tutorial, php projects, php projects download, php projects for students, php projects with source code, php school project, php tutorial, php tutorial for beginners, php tutorial for beginners full, php website project, php7, Project, Project center in hosur, Project center in kumbakonam, Project center in mannargudi, Project center in mayiladuthurai, Project center in thanjavur, Project center in trichy, Project Ideas, projects, projects on php, Thanjavur, top 10 android, top android apps, top android apps 2019, Trichy
A Methodology for Extracting Standing Human Bodies From Single Images
Segmentation of human bodies in images is a challenging task that can facilitate numerous applications, like scene understanding and activity recognition. In order to cope with the highly dimensional pose space, scene complexity, and various human appearances, the majority of existing works require computationally complex training and template matching processes.
We propose a bottom-up methodology for automatic extraction of human bodies from single images, in the case of almost upright poses in cluttered environments. The position, dimensions, and color of the face are used for the localization of the human body, construction of the models for the upper and lower body according to anthropometric constraints, and estimation of the skin color.
Different levels of segmentation granularity are combined to extract the pose with highest potential. The segments that belong to the human body arise through the joint estimation of the foreground and background during the body part search phases, which alleviates the need for exact shape matching. The performance of our algorithm is measured using 40 images (43 persons) from the INRIA person dataset and 163 images from the “lab1” dataset, where the measured accuracies are 89.53% and 97.68%, respectively. Qualitative and quantitative experimental results demonstrate that our methodology outperforms state-of-the-art interactive and hybrid top-down/bottom-up approaches.
