{"title":"Designing and Implementation of a Method Comprising One to One Web-Based Real-Time Communications","authors":"Lata Kiran Dey, Rajendra Kumar, Biren Karmakar","volume":198,"journal":"International Journal of Electronics and Communication Engineering","pagesStart":142,"pagesEnd":146,"ISSN":"1307-6892","URL":"https:\/\/publications.waset.org\/pdf\/10013117","abstract":"
Web Real-Time Communications is a collection of standards, and protocols, which provide real-time communications capabilities between web browsers and devices. This paper outlines the design and further implementation of a web real-time communications method on a secure web application having audio and video call capabilities. This proposed application may put up a system that will be able to work over both desktop as well as mobile browsers. Web Real-Time Communications (WebRTC) also gives a set of JavaScript standard Real-Time Communications (RTC) Application Programming Interfaces (APIs), which primarily work over the RTC framework. This helps to build a suitable communication application, which enables the audio, video, and message transfer between today\u2019s modern browsers having WebRTC support.<\/p>","references":"[1]\tBranislav Sredojev, Dragan Samardzija and Dragan Posarac, WebRTC technology overview, and signaling solution design and implementation, 25-29 May 2015.\r\n[2]\tMichael Adeyeyel, Ishmeal Makitla, and Thomas Fogwill, WebRTC using JSON via XMLHttpRequest and SIP over WebSocket Initial Signalling Overhead Findings, Conference: WEBIST 2013 - Proceedings of the 9th International Conference on Web Information Systems and Technologies, Aachen, Germany, 8-10 May 2013\r\n[3]\tWebRTC Online Available: https:\/\/www.w3.org\/2021\/01\/pressrelease-webrtc-rec.html.en\r\n[4]\tMichael Adeyeye; Ishmeal Makitla; Thomas Fogwi, Determining the Signalling Overhead of two common WebRTC methods: JSON via XMLHttpRequest and SIP over WebSocket, 9-12 Sept. 2013.\r\n[5]\tA. Sergiienko, \u201cWebRTC Blueprints, develop your very own media applications and services using WebRTC,\u201d in Birmingham, Packt Publishing, ISBN 978-1-78398-310-0, May 2014.\r\n[6]\tA. Morton, \u201cUnderstanding WebRTC Adoption by Industry,\u201d 2018. Online Available: https:\/\/www.callstats.io\/white-papers\/understandingwebrtc-adoption-by-industry\r\n[7]\tExplaining the Real-time Transport Protocol of SRTP for WebRTC, By callstats on April 12, 2018. Online Available: https:\/\/medium.com\/callstatsio\/explaining-the-real-time-transport-protocol-of-srtp-for-webrtc-2795e03d2d58?source=post_internal_links\r\n[8]\tMadhura Deshpande, and Dr. S. P. Mohani, Integration of WebRTC with SIP \u2013 Current Trend. International Journal of Innovations in Engineering and Technology (IJIET), Volume 6 Issue 2 December 2015.\r\n[9]\tAvailable Online at: https:\/\/hpbn.co\/webrtc\/\r\n[10]\tAlessandro Amirante, Meetecho S.r.l. Tobia Castaldi, Lorenzo Miniero, and Simon Pietro Romano, University of Napoli Federico II, On the Seamless Interaction between WebRTC Browsers and SIP-Based Conferencing Systems, \r\n[11]\tC. Holmberg, S. Hakansson, and G. Eriksson, \u201cWeb Real-Time Communication Use-Cases and Requirements,\u201d draft-ietf-rtcweb-use-cases-and-requirements10, Dec. 2012.\r\n[12]\tReal-Time Communication and Multipoint Video Conference Using Webrtc and Media Server. Boobalan M Department of Computer Science and Engineering Sri Ramanujar Engineering College, Chennai-600127, India.\r\n[13]\tSanket Jadhav, Manoj Berad, Tejas Banaitkar, Swapnil Salunkhe, Swati Khokale, Survey on Real-Time Peer to Peer Multimedia Communication Application, \u00a9 2021 JETIR April 2021, Volume 8, Issue 4 www.jetir.org (ISSN-2349-5162).\r\n[14]\tMediaStream, MDN web docs, Online Available: https:\/\/developer.mozilla.org\/en-US\/docs\/Web\/API\/MediaStream","publisher":"World Academy of Science, Engineering and Technology","index":"Open Science Index 198, 2023"}