Engineering:ipDTL
ipDTL is an IP codec which runs in a web browser, used for remote broadcasts in television, radio, and voice-over.[1] It serves as a replacement for and is compatible with older ISDN audio codecs. Developed by former BBC sound engineer Kevin Leach, ipDTL uses the open-source codec OPUS and operates within web browsers, specifically Blink-based browsers like Google Chrome or Opera.[2]
History
ipDTL was invented by former BBC sound engineer Kevin Leach and uses the open-source codec OPUS since it first became available in the Google Chrome web browser.[3] It enables higher audio quality than ISDN by accessing a website through a web browser.[1] Audio quality of 72 kbit/s mono for voice contributors,[4] 320 kbit/s for outside broadcasts with music, and 3 Mbit/s video at 1080p for video contributions on TV programs are possible.[1] This technology was launched in 2013.[5]
Overview
ipDTL uses WebRTC and Web audio technologies. It is designed primarily for Blink-based browsers like Google Chrome or Opera and runs on all platforms except iOS where these browsers are supported. The codecs used are Opus for audio and VP8 for video. The supported audio bandwidth is up to 320kbit/s (stereo), and up to 3Mbit/s for video (1080p).[1]
Connections are established point-to-point and has DTLS encryption.[3] Where a point-to-point connection is not possible, TURN relay servers are used to route the audio. TURN servers in the US, UK, Brazil, Australia and Japan are available, with an independent backup system being maintained at ipdtl2.com. Connections can also be made through a special URL that allows users to access another account and connect with it.[1] ipDTL uses a proprietary signaling method but also supports SIP for interoperability with other devices and applications such as Comrex Access and Media5-fone, and can transcode between Opus, G.722 and G.711.[6] It also supports interoperability with legacy ISDN hardware via cloud-based bridging servers.[7]
ipDTL powers hybrIP – a talk show system, which allows screening calls using any computer.
See also
References
- ↑ 1.0 1.1 1.2 1.3 1.4 Sparrow, Mark (12 November 2014). "Could ipDTL spell the end of ISDN for broadcasting and voiceovers?". Forbes. https://www.forbes.com/sites/marksparrow/2014/11/12/could-ipdtl-spell-the-end-of-isdn-for-broadcasting-and-voiceovers/. Retrieved 17 February 2015.
- ↑ "Interview: Kevin Leach, In:Quality – remote broadcasting". http://asiaradiotoday.com/2013/11/interview-kevin-leach-inquality-talks-remote-broadcasting/. Retrieved 17 February 2015.
- ↑ 3.0 3.1 Jackson, Will (14 November 2014). "Cheap, easy remotes via Internet". Radio World. http://www.radioworld.com/article/cheap-easy-remotes-via-internet/273301. Retrieved 17 February 2015.
- ↑ Williams, Neil. "How to do a voiceover using ipDTL". http://neilwilliamsvoiceover.com/how-to-do-a-voiceover-using-ipdtl/. Retrieved 19 April 2017.
- ↑ Martin, Roy (14 October 2013). "Technical Innovation Award for InQuality". http://radiotoday.co.uk/2013/10/technical-innovation-award-for-inquality/. Retrieved 17 February 2015.
- ↑ Cunningham, Steve (1 April 2014). "Test Drive: ISDN Replacements – ipDTL". Radio and Production Magazine. https://rapmag.com/index.php/archives/2010s/355-14/apr14/2426-test-drive-isdn-replacements-ipdtl. Retrieved 17 February 2015.
- ↑ King, Rana (13 October 2015). "ISDN with ipDTL for Voice Over Actors Now Possible". Voice Over Herald. http://www.voiceoverherald.com/isdn-with-ipdtl-for-voice-over-actors-now-possible/. Retrieved 1 September 2016.
External links
Original source: https://en.wikipedia.org/wiki/IpDTL.
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