EBU R 128 explained

EBU R 128
Long Name:Loudness normalisation and permitted maximum level of audio signals
First Published:2010
Version:4.0
Version Date:August 2020
Year Started:2012
Organization:European Broadcasting Union
Related Standards:ITU-R BS.1770
Status:Published
Website:https://tech.ebu.ch/publications/r128/

EBU R 128 is a recommendation for loudness normalisation and maximum level of audio signals. It is primarily followed during audio mixing of television and radio programmes and adopted by broadcasters to measure and control programme loudness.[1] It was first issued by the European Broadcasting Union in August 2010 and most recently revised in August 2020.[2]

employs an international standard for measuring audio loudness, stated in the ITU-R BS.1770 recommendation and using the loudness measures LU (loudness units) and LUFS (loudness units referenced to full scale), specifically created with this purpose.[3] The EBU Tech 3341 document further clarified loudness metering implementation and practices in 2016.[4]

Premise

Before the adoption of, normalisation was based on the peak level of audio signals, which led to considerable loudness discrepancies between programmes and between broadcast channels. The same peak level does not necessarily produce the same loudness, because the use of dynamic range compression and limiting can increase the average level of the programme without increasing its peak level. Starting from the early 1990s through the early 2010s, both the music and the advertising industries urged the continuation of this practice to ensure that music and advertising spots became louder without exceeding the maximum permitted peak level. This phenomenon is known as the loudness war.

The resulting inconsistencies and changes in loudness, especially between programmes and commercials, became a frequent cause of complaints from viewers and listeners. To help address these problems, the International Telecommunication Union (ITU) developed new algorithms to measure audio programme loudness in a manner similar to how the human ear perceives sounds and studied new methods to measure loudness over a long-term timeframe. This would allow normalising the loudness of different programs and programme contents appropriately.

Development

To find practical solutions for the switch from peak normalisation to loudness normalisation, the EBU Production Management Committee formed an international working group comprising sound engineers from various radio stations and broadcasting institutes. Its name, PLoud, derived from a combination of the words production and loudness.[5]

The group first developed evaluation and measurement methods to guide the development of appropriate measurement instruments in the industry. It drafted a technical document to enable broadcasters and programme producers to change their sound processing to the new recommendation,[6] while another technical document dealt with the procedures to follow in the signal distribution.[7]

Specification

Definitions

To characterise the level and the dynamic range of an audio signal, introduced new units of measurement:

UnitDefinitionDescriptionExamples and implementation
LKK-weighted loudness levelLoudness level measured with K frequency weighting.R 128 target level is: LK = −23 LUFS
LUFSLoudness Units referenced to full scaleLoudness measurement unit on an absolute scale, K-weighted, relative to a digital scale (the upper limit of which is 0 dBFS). Equivalent with LKFS, used in ITU-R BS.1770.
LULoudness UnitRelative loudness measurement. corresponds to the relative measurement of on a digital scale. LU can also express the difference in level from the target level.In a loudness meter implementing EBU Mode: Reference level =  =
A programme with an integrated loudness of measures in EBU Mode (i.e. is quieter than the target level).
LRALoudness Range[8] A statistically determined value that describes the loudness variation (dynamics) of a programme. does not prescribe a maximum loudness range. LRA could be limited arbitrarily during production for aesthetic purposes (depending on style or genre) or practical purposes (depending on the environment where the programme is intended to be played back: for example, a home theatre, a mobile device or a cinema).
TPTrue PeakReconstruction of the inter-sample peak level of the signal (the peak level generated between two samples), calculated by oversampling.[9] The maximum true peak level permitted by in production is .
dBTPTrue Peak level referenced to full scaleLevel in of the audio signal that takes inter-sample peaks into account, measured in decibels relative to full scale.

Normalisation

recommends normalising audio at the target level of . This measurement is the integrated loudness calculated over the whole duration of the programme and in the entirety of its contents (i.e. without emphasising specific foreground elements, such as voice). A deviation of is permitted. When practical limitations prevent achieving this accuracy (specifically, less predictable materials such as live mixed programmes), a wider tolerance of is permitted. Furthermore, the whole programme must not exceed the peak level of .

To ensure loudness meters developed by different manufacturers provide the same reading, EBU Tech 3341 defines EBU Mode which describes how to perform the measurement using the ITU-R BS.1770 recommendation.

Metering

EBU Mode specifies three distinct methods which analyse loudness over three different timeframes:

Real-time meters must provide an update rate of at least for short-term meters and of at least for integrated loudness meters.

To prevent silent passages of a programme from misrepresenting the overall loudness measurement, integrated loudness is measured through two gating functions: absolute and relative. The detection gate, specified in ITU-R BS.1770-4, considers silence the portions of audio in which the signal falls below the absolute threshold of ; similarly, the relative gate also drops incoming loudness data if the average level falls below the current integrated loudness value. Measurement is not gated in momentary and short-term loudness metering.

Implementation

EBU and EBU Mode have been implemented by several software developers, audio technology companies and content distributors, including Adobe, Apple, Dolby, iZotope, Magix, PreSonus, Sonible,[10] Sony, Steinberg, TC Electronic, Toyo, Orban and Waves.[11]

Real-time metering plug-ins aid engineers in their mixing decisions and in delivering -compliant programmes, while broadcasters and content distributors can check and normalise whole programmes by performing a faster-than-real-time analysis; programmes produced before the recommendation are likely to be lowered in volume to match the target level.

Ebumeter is software for Linux that provides level metering according to EBU R 128.[12]

Adoption and aftermath

The recommendation encourages the use of a wider dynamic range in production but does not restrict the use of dynamic range compression. In essence, it ties the use of compression to artistic and aesthetic decisions, rather than the necessity of obtaining a louder mix. With the adoption of normalisation by broadcasters since the introduction of EBU, reducing dynamic range in production does not render the program louder in broadcast.[13] Widespread adoption of ITU-R BS.1770 and EBU, combined with the prevailing of streaming over physical media distribution in the 2010s, arguably put an end to the loudness war.

Starting in 2012, European countries integrated EBU to their audiovisual legislation and television stations in Europe adopted it on all distribution channels.[14] Sky UK adopted in 2013.[15]

is applicable also to radio programmes and is gradually being introduced in European radio broadcasts: for example, German public broadcaster BR changed its radio programmes at the end of 2015.[16]

Since implementation is not binding, some television stations have imposed additional conditions on programme production. For example, Austrian public broadcaster ORF has a limit of for data-reduced formats; Franco-German TV network ARTE has published guidelines for LRA; various broadcasters impose maximum momentary and short-term loudness values for short reports, such as commercials.

Through the 2010s, Internet streaming services have implemented loudness-based normalisation, even though each platform uses different methods and target levels: for example, YouTube and Tidal use downward normalisation only (turn down louder content to match the target level, but do not turn up quieter content).[17] Spotify uses ITU-R BS.1770 to measure loudness and normalizes to a selectable target level of −11, −14 or .[18] Apple Music activates loudness normalisation when the iTunes Sound Check option is enabled.

Target levels (or estimated equivalent level) adopted by streaming services!Target level!Platform
−14 LUFSTidal, Amazon Music, YouTube, Spotify
−16 LUFSApple Music[19]
−18 LUFSQobuz

External links

Notes and References

  1. Web site: R 128 – Loudness normalisation and permitted maximum level of audio signals . June 2014 . tech.ebu.ch . . Geneva . 31 March 2020.
  2. Web site: Change log R 128 v3.0 . 31 May 2016 . tech.ebu.ch . 5 April 2020.
  3. Web site: Recommendation ITU-R BS.1770-2 – Algorithms to measure audio programme loudness and true-peak audio level . March 2011 . . 31 March 2020.
  4. Web site: Tech 3341 – Loudness Metering: 'EBU Mode' metering to supplement Loudness normalisation . tech.ebu.ch . . Geneva . January 2016 . 4 April 2020.
  5. Web site: Ploud (Loudness) – FAQ. 18 December 2019. tech.ebu.ch. 8 April 2020.
  6. Web site: Tech 3343 – Guidelines for production of programmes in accordance with EBU R 128 . January 2016 . tech.ebu.ch . . Geneva . 4 April 2020.
  7. Web site: Tech 3344 – Guidelines for distribution and reproduction in accordance with EBU R 128 . July 2016 . tech.ebu.ch . . Geneva . 4 April 2020.
  8. Web site: Tech 3342 – Loudness Range: measure to supplement loudness normalisation. January 2016. tech.ebu.ch. European Broadcasting Union. Geneva. 4 April 2020.
  9. Web site: The end of the loudness war?. Robjohns. Hugh. February 2014. Sound on Sound. 8 April 2020.
  10. Web site: Sonible true:level manual. March 2023. sonible.com. 2024-04-07.
  11. Web site: Ploud (Loudness) – Implementations. 18 December 2019. tech.ebu.ch. 2020-04-08.
  12. Web site: Ebumeter - Quick guide. 2021-12-29. kokkinizita.linuxaudio.org.
  13. Web site: Mastering for streaming services. Schorah. Jon. Inglis. Sam. June 2017. Sound on Sound. 8 April 2020.
  14. Web site: Loudness: France chooses EBU R128 to bolster audio laws. 25 October 2011. European Broadcasting Union. en. 8 April 2020.
  15. Web site: Sky confirms formal adoption of R128 loudness specification. Davies. David. 9 December 2013. SVG Europe. en. 8 April 2020.
  16. Rundfunk. Bayerischer. 10 July 2015. Angenehmer hören: BR optimiert Klang durch Aussteuerung nach Lautheit. BR.de. de.
  17. Web site: YouTube changes loudness reference to –14 LUFS. Shepherd. Ian. 18 September 2019. meterplugs.com. en. 8 April 2020.
  18. Web site: Mastering & loudness – FAQ – Spotify for Artists . 11 May 2021 . artists.spotify.com . en.
  19. Web site: Apple Switches to LUFS, Enables Sound Check by Default . 2022-05-08 . meterplugs.com . en.