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- %CE%9C-law_algorithm abstract "The µ-law algorithm (sometimes written "mu-law", often approximated as "u-law") is a companding algorithm, primarily used in 8-bit PCM digital telecommunication systems in North America and Japan. Companding algorithms reduce the dynamic range of an audio signal. In analog systems, this can increase the signal-to-noise ratio (SNR) achieved during transmission; in the digital domain, it can reduce the quantization error (hence increasing signal to quantization noise ratio). These SNR increases can be traded instead for reduced bandwidth for equivalent SNR.It is similar to the A-law algorithm used in regions where digital telecommunication signals are carried on E-1 circuits, e.g. Europe.".
- %CE%9C-law_algorithm thumbnail Ulaw_alaw_db.svg?width=300.
- %CE%9C-law_algorithm wikiPageExternalLink spra163a.pdf.
- %CE%9C-law_algorithm wikiPageExternalLink spra634.pdf.
- %CE%9C-law_algorithm wikiPageExternalLink mulawcompression.html.
- %CE%9C-law_algorithm wikiPageExternalLink technologies_tech_note09186a00801149b3.shtml.
- %CE%9C-law_algorithm wikiPageID "41382".
- %CE%9C-law_algorithm wikiPageRevisionID "620075091".
- %CE%9C-law_algorithm hasPhotoCollection Μ-law_algorithm.
- %CE%9C-law_algorithm subject Category:Audio_codecs.
- %CE%9C-law_algorithm subject Category:ITU-T_recommendations.
- %CE%9C-law_algorithm type Abstraction100002137.
- %CE%9C-law_algorithm type Advice106671484.
- %CE%9C-law_algorithm type Communication100033020.
- %CE%9C-law_algorithm type ITU-TRecommendations.
- %CE%9C-law_algorithm type Message106598915.
- %CE%9C-law_algorithm type Proposal107162194.
- %CE%9C-law_algorithm type Recommendation106671637.
- %CE%9C-law_algorithm comment "The µ-law algorithm (sometimes written "mu-law", often approximated as "u-law") is a companding algorithm, primarily used in 8-bit PCM digital telecommunication systems in North America and Japan. Companding algorithms reduce the dynamic range of an audio signal. In analog systems, this can increase the signal-to-noise ratio (SNR) achieved during transmission; in the digital domain, it can reduce the quantization error (hence increasing signal to quantization noise ratio).".
- %CE%9C-law_algorithm label "Ley Mu".
- %CE%9C-law_algorithm label "Llei Mu".
- %CE%9C-law_algorithm label "Loi µ".
- %CE%9C-law_algorithm label "Μ-law algorithm".
- %CE%9C-law_algorithm label "Μ-law".
- %CE%9C-law_algorithm label "Μ-lawアルゴリズム".
- %CE%9C-law_algorithm label "Мю-закон".
- %CE%9C-law_algorithm label "뮤 법칙 알고리즘".
- %CE%9C-law_algorithm sameAs m.0bc3y.
- %CE%9C-law_algorithm sameAs Μ-law_algorithm.
- %CE%9C-law_algorithm wasDerivedFrom Μ-law_algorithm?oldid=620075091.
- %CE%9C-law_algorithm depiction Ulaw_alaw_db.svg.
- %CE%9C-law_algorithm isPrimaryTopicOf Μ-law_algorithm.