Linphone is likely to be the first open source SIP-based conferencing solution powered by a modern SFU server.
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All use cases
Linphone and its components are drivers of innovation in many sectors such as
telecommunications, IoT, health, home automation, security etc.
Linphone’s cross-platform VoIP SDK and Flexisip server are used worldwide in our customers’ hardware and software applications.
Linphone and Flexisip standard deployment
Areas of use
Telco operators, Mobile Virtual Network Operators (MVNOs) and Over The Top (OTT) service providers can customise Linphone to create their own branded and value-added VoIP application. From the very beginning, the Linphone team has invested much of its R&D effort into audio and video quality across heterogeneous networks.
Linphone and the Flexisip conference server offer advanced group features, such as server-based group calling and video meetings, group chat and presence. We aim to provide a complete, robust and unified-over-SIP solution for the next generation of networking applications.
Linphone is used by major actors in the security domain. It has proven to be a legitimate candidate, as it supports SIP/TLS with state-of-the-art ciphering algorithms, ZRTP audio/video encryption, and end-to-end encryption for messaging. It is the first open source softphone to offer post quantum encryption, with the implementation of Crystals-KYBER algorithm.
Organisations in the health sector can use Linphone to build telepresence solutions for long-distance medical consultations, telephony systems for elderly and disabled people, or monitoring systems for hospitals.
Linphone is capable of interaction with web browsers, and is able to receive information from a web page to start a call, open the app, invite participants to a conference call etc. It is therefore a good candidate for building advanced solutions for professional communications.
Linphone and Flexisip are integrated into IP video door entry intercom systems, allowing the audio and video capabilities of a door entry panel to be accessible by in-house control screens and smartphones, connected either to a local network or to the public internet. The network architecture used in these contexts can also be deployed in other areas, such as the emergency services or the Internet of Things.