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  • 2017:Main Page
    * Publishing final results ** Audio Classification (Train/Test) Tasks <TC: IMIRSEL>
    9 KB (1,363 words) - 12:20, 7 May 2018
  • 2010:MIREX HOME
    # Audio Classification (Train/Test) Tasks # Audio Music Similarity and Retrieval
    9 KB (1,296 words) - 05:32, 6 June 2011
  • 2005:Main Page
    ...represent the vast and multidisciplinary field of MIR, including symbolic, audio, and other subdisciplines. *Results will be presented during a poster and a panel session.
    3 KB (375 words) - 22:50, 19 December 2011
  • 2005:Call For Participation
    * [[2005:Audio Artist Identification]] * [[2005:Audio Drum Detection]]
    3 KB (446 words) - 23:51, 10 May 2010
  • 2010:Audio Chord Estimation
    ...ns in music information retrieval, extracting the harmonic structure of an audio track is very desirable, for example for segmenting pieces into characteris ...sation of chords with a key and type as well as a chronological order with onset and duration of the chords.
    12 KB (1,995 words) - 01:37, 15 December 2011
  • 2006:Main Page
    =MIREX 2006 RESULTS= ...re now available. The central listing is available on the [[2006:MIREX2006 Results]] page. The abstracts are also available [https://www.music-ir.org/mirex/ab
    7 KB (1,024 words) - 01:07, 15 December 2011
  • 2006:Audio Onset Detection
    == Results == *Results are on [[2006:Audio Onset Detection Results ]] page.
    11 KB (1,679 words) - 13:04, 13 May 2010
  • 2006:Audio Onset Detection Results
    [[Category: Results]] ...und information about this task set please refer to the [[2006:Audio Onset Detection]] page.
    3 KB (391 words) - 00:58, 15 December 2011
  • 2006:MIREX2006 Results
    The MIREX 2006 Results are now available for all tasks! =OVERALL RESULTS POSTER=
    1,013 bytes (113 words) - 13:05, 7 March 2019
  • 2006:Score Following
    ...or symbolic MIDI) with different reference types (MIDI score or reference Audio). ...g. The main issue here is causality and ofcourse computation time. Offline audio to score alignment systems are mostly non-causal and use future data for al
    17 KB (2,654 words) - 13:12, 13 May 2010
  • 2006:Score Following Proposal
    ==Results== Results are on [[2006:Score Following Results ]] page.
    8 KB (1,171 words) - 13:05, 13 May 2010
  • 2007:Audio Onset Detection Results
    ...und information about this task set please refer to the [[2007:Audio Onset Detection]] page. The aim of the Audio Onset Detection task is to find the time locations at which all musical events in a recordi
    3 KB (453 words) - 01:17, 15 December 2011
  • 2007:MIREX2007 Results
    =OVERALL RESULTS POSTER= ....org/mirex/abstracts/2007/MIREX2007_overall_results.pdf MIREX 2007 Overall Results Poster (PDF)] is now available .
    2 KB (276 words) - 01:12, 15 December 2011
  • 2007:Main Page
    =MIREX 2007 Results Posted= Results from the 2007 MIREX evaluation runs are available now at: [[2007:MIREX2007_
    6 KB (748 words) - 22:56, 19 December 2011
  • 2005:MIREX2005 Results
    The MIREX 2005 Results are now available for the following tasks! == Results by Task ==
    2 KB (197 words) - 00:05, 30 July 2010
  • 2008:Audio Melody Extraction
    To extract the melody line from polyphonic audio. ...ether a particular time frame contains a "melody pitch" or not), and pitch detection (deciding the most likely melody pitch for each time frame). We structure t
    14 KB (2,441 words) - 14:08, 7 June 2010
  • 2009:MIREX2009 Results
    ==OVERALL RESULTS POSTERS== ...c-ir.org/mirex/results/2009/MIREX2009ResultsPoster1.pdf MIREX 2009 Overall Results Poster #1 (PDF)]
    2 KB (215 words) - 17:28, 6 July 2011
  • 2009:Main Page
    Because MIREX is premised upon the sharing of ideas and results, '''ALL''' MIREX participants are expected to: ...PDF in the ISMIR format prior to ISMIR 2009 for posting on the respective results pages (sometimes the same abstract can be used for multiple submissions; in
    6 KB (923 words) - 16:52, 13 May 2010
  • 2009:Audio Onset Detection Results
    These are the results for the 2009 running of the Audio Onset Detection. For background information about this task set please refer to the [[2009: The aim of the Audio Onset Detection task is to find the time locations at which all musical events in a recordi
    3 KB (438 words) - 01:20, 15 December 2011
  • 2009:Scratch
    == Results by Task == * [[2009:Audio_Genre_Classification_Results | Audio Genre Classification Results]]
    2 KB (161 words) - 22:42, 13 May 2010
  • 2006:Audio Onset Detection Results: Dixon - cd
    ===MIREX 2006 Audio Onset Detection Results: Dixon - cd 0.15=== ===MIREX 2006 Audio Onset Detection Plot: Dixon - cd 0.15===
    406 bytes (54 words) - 19:32, 13 May 2010
  • 2006:Audio Onset Detection Results: Dixon - nwpd
    ===MIREX 2006 Audio Onset Detection Results: Dixon - nwpd 0.30=== ===MIREX 2006 Audio Onset Detection Plot: Dixon - nwpd 0.30===
    422 bytes (54 words) - 19:33, 13 May 2010
  • 2006:Audio Onset Detection Results: Dixon - rcd
    ===MIREX 2006 Audio Onset Detection Results: Dixon - rcd 0.40=== ===MIREX 2006 Audio Onset Detection Plot: Dixon - rcd 0.40===
    414 bytes (54 words) - 19:33, 13 May 2010
  • 2006:Audio Onset Detection Results: Dixon - sf
    ===MIREX 2006 Audio Onset Detection Results: Dixon - sf 0.35=== ===MIREX 2006 Audio Onset Detection Plot: Dixon - sf 0.35===
    406 bytes (54 words) - 19:33, 13 May 2010
  • 2006:Audio Onset Detection Results: Brossier - complex
    ===MIREX 2006 Audio Onset Detection Results: Brossier - complex=== ===MIREX 2006 Audio Onset Detection Plot: Brossier - complex===
    214 bytes (27 words) - 19:34, 13 May 2010
  • 2006:Audio Onset Detection Results: Dixon - wpd
    ===MIREX 2006 Audio Onset Detection Results: Dixon - wpd 0.65=== ===MIREX 2006 Audio Onset Detection Plot: Dixon - wpd 0.65===
    206 bytes (27 words) - 19:34, 13 May 2010
  • 2006:Audio Onset Detection Results: Brossier - dual
    ===MIREX 2006 Audio Onset Detection Results: Brossier - dual=== ===MIREX 2006 Audio Onset Detection Plot: Brossier - dual===
    202 bytes (27 words) - 19:34, 13 May 2010
  • 2006:Audio Onset Detection Results: Du
    ===MIREX 2006 Audio Onset Detection Results: Du=== ===MIREX 2006 Audio Onset Detection Plot: Du===
    158 bytes (22 words) - 19:34, 13 May 2010
  • 2006:Audio Onset Detection Results: Brossier - hfc
    ===MIREX 2006 Audio Onset Detection Results: Brossier - hfc=== ===MIREX 2006 Audio Onset Detection Plot: Brossier - hfc===
    198 bytes (27 words) - 19:34, 13 May 2010
  • 2006:Audio Onset Detection Results: Brossier - specdiff
    ===MIREX 2006 Audio Onset Detection Results: Brossier - specdiff=== ===MIREX 2006 Audio Onset Detection Plot: Brossier - specdiff===
    218 bytes (27 words) - 19:35, 13 May 2010
  • 2006:Audio Onset Detection Results: Roebel 1
    ===MIREX 2006 Audio Onset Detection Results: Roebel 1=== ===MIREX 2006 Audio Onset Detection Plot: Roebel 1===
    178 bytes (21 words) - 19:35, 13 May 2010
  • 2006:Audio Onset Detection Results: Roebel 2
    ===MIREX 2006 Audio Onset Detection Results: Roebel 2=== ===MIREX 2006 Audio Onset Detection Plot: Roebel 2===
    178 bytes (21 words) - 19:35, 13 May 2010
  • 2006:Audio Onset Detection Results: Roebel 3
    ===MIREX 2006 Audio Onset Detection Results: Roebel 3=== ===MIREX 2006 Audio Onset Detection Plot: Roebel 3===
    178 bytes (21 words) - 19:35, 13 May 2010
  • 2007:Audio Onset Detection Results: Lacoste
    ===MIREX 2006 Audio Onset Detection Results: Lacoste=== <csv>2007/onset.lacoste_all.csv</csv>
    173 bytes (21 words) - 19:41, 13 May 2010
  • 2007:Audio Onset Detection Results: Lee - Joint - 0.2
    ===MIREX 2006 Audio Onset Detection Results: Lee-Joint-0.2=== <csv>2007/onset.lee_joint_0.2_all.csv</csv>
    197 bytes (23 words) - 19:41, 13 May 2010
  • 2007:Audio Onset Detection Results: Lee - Joint - 0.3
    ===MIREX 2006 Audio Onset Detection Results: Lee-Joint-0.3=== <csv>2007/onset.lee_joint_0.3_all.csv</csv>
    197 bytes (23 words) - 19:42, 13 May 2010
  • 2007:Audio Onset Detection Results: Lee - Joint - 0.4
    ===MIREX 2006 Audio Onset Detection Results: Lee-Joint-0.4=== <csv>2007/onset.lee_joint_0.4_all.csv</csv>
    197 bytes (23 words) - 19:42, 13 May 2010
  • 2007:Audio Onset Detection Results: Lee - LP
    ===MIREX 2006 Audio Onset Detection Results: Lee-LP=== <csv>2007/onset.lee_lp_all.csv</csv>
    169 bytes (23 words) - 19:42, 13 May 2010
  • 2007:Audio Onset Detection Results: Roebel 1
    ===MIREX 2006 Audio Onset Detection Results: Roebel_1=== <csv>2007/onset.roebel_1_all.csv</csv>
    177 bytes (21 words) - 19:42, 13 May 2010
  • 2007:Audio Onset Detection Results: Roebel 2
    ===MIREX 2006 Audio Onset Detection Results: Roebel_2=== <csv>2007/onset.roebel_2_all.csv</csv>
    177 bytes (21 words) - 19:42, 13 May 2010
  • 2007:Audio Onset Detection Results: Roebel 3
    ===MIREX 2006 Audio Onset Detection Results: Roebel_3=== <csv>2007/onset.roebel_3_all.csv</csv>
    177 bytes (21 words) - 19:43, 13 May 2010
  • 2007:Audio Onset Detection Results: Roebel 4
    ===MIREX 2006 Audio Onset Detection Results: Roebel_4=== <csv>2007/onset.roebel_4_all.csv</csv>
    177 bytes (21 words) - 19:43, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - cd
    ===MIREX 2006 Audio Onset Detection Results: Stowell-cd=== <csv>2007/onset.stowell_cd_all.csv</csv>
    185 bytes (23 words) - 19:44, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - mkl
    ===MIREX 2006 Audio Onset Detection Results: Stowell-mkl=== <csv>2007/onset.stowell_mkl_all.csv</csv>
    189 bytes (23 words) - 19:44, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - pd
    ===MIREX 2006 Audio Onset Detection Results: Stowell-pd=== <csv>2007/onset.stowell_pd_all.csv</csv>
    185 bytes (23 words) - 19:44, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - pow
    ===MIREX 2006 Audio Onset Detection Results: Stowell-pow=== <csv>2007/onset.stowell_pow_all.csv</csv>
    189 bytes (23 words) - 19:45, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - rcd
    ===MIREX 2006 Audio Onset Detection Results: Stowell-rcd=== <csv>2007/onset.stowell_rcd_all.csv</csv>
    189 bytes (23 words) - 19:45, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - som
    ===MIREX 2006 Audio Onset Detection Results: Stowell-som=== <csv>2007/onset.stowell_som_all.csv</csv>
    189 bytes (23 words) - 19:45, 13 May 2010
  • 2007:Audio Onset Detection Results: Stowell - wpd
    ===MIREX 2006 Audio Onset Detection Results: Stowell-wpd=== <csv>2007/onset.stowell_wpd_all.csv</csv>
    189 bytes (23 words) - 19:45, 13 May 2010
  • 2007:Audio Onset Detection Results: Zhou
    ===MIREX 2006 Audio Onset Detection Results: Zhou=== <csv>2007/onset.zhou_all.csv</csv>
    161 bytes (21 words) - 19:45, 13 May 2010
  • 2009:Audio Beat Tracking Results
    This year was the first year since MIREX 2006 that we have run the Audio Beat Track (ABT) task. ABT 2009 saw two collection used, the original ''McK ...s for musical audio beat tracking algorithms". [https://music-ir.org/mirex/results/2009/beat/techreport_beateval.pdf ''Technical Report C4DM-TR-09-06''].
    5 KB (683 words) - 16:12, 23 July 2010
  • 2010:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    8 KB (1,208 words) - 06:13, 7 June 2010
  • Audio Chord Estimation
    ...ns in music information retrieval, extracting the harmonic structure of an audio track is very desirable, for example for segmenting pieces into characteris ...sation of chords with a key and type as well as a chronological order with onset and duration of the chords.
    2 KB (211 words) - 16:06, 4 June 2010
  • 2010:MIREX2010 Results
    ==OVERALL RESULTS POSTERS (First Version: Will need updating as last runs are completed)== ...w.music-ir.org/mirex/results/2010/mirex_2010_poster.pdf MIREX 2010 Overall Results Posters (PDF)]
    4 KB (621 words) - 22:28, 23 October 2011
  • 2011:MIREX Home
    # Audio Classification (Train/Test) Tasks # Audio Music Similarity and Retrieval
    8 KB (1,099 words) - 14:31, 1 October 2011
  • 2010:Runtime
    '''Task 4''' (MIREX 2010: Audio Train/Test: Genre Classification (Latin) - MIREX09 Dataset) :Music classification task requiring participants to classify music audio tracks by Genre, where the genres are drawn from a set of Latin music genre
    10 KB (1,396 words) - 18:14, 26 October 2010
  • 2011:Audio Chord Estimation
    ...ns in music information retrieval, extracting the harmonic structure of an audio track is very desirable, for example for segmenting pieces into characteris ...sation of chords with a key and type as well as a chronological order with onset and duration of the chords.
    13 KB (2,035 words) - 01:37, 15 December 2011
  • MIREX Impact Citations
    ...ost citations to papers (yours or others) that have used MIREX data and/or results. Any acceptable citation format is OK. DOIs or URL to accessible copies esp ...Ehmann and M. C. Jones, "Audio Cover Song Identification: MIREX 2006-2007 Results and analysis", in the 9th International Conference on Music Information Ret
    13 KB (1,851 words) - 13:40, 1 June 2011
  • 2011:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    8 KB (1,214 words) - 15:18, 8 July 2011
  • 2011:MIREX2011 Results
    ==OVERALL RESULTS POSTERS <!--(First Version: Will need updating as last runs are completed)- ...w.music-ir.org/mirex/results/2011/mirex_2011_poster.pdf MIREX 2011 Overall Results Posters (PDF)]
    4 KB (596 words) - 17:21, 18 May 2012
  • 2009:Audio Chord Detection
    ...sation of chords with a key and type as well as a chronological order with onset and duration of the chords. ...me publications are available on this topic [1,2,3,4,5], comparison of the results is difficult, because different measures are used to assess the performance
    26 KB (4,204 words) - 01:44, 15 December 2011
  • 2012:Audio Chord Estimation
    ...ns in music information retrieval, extracting the harmonic structure of an audio track is very desirable, for example for segmenting pieces into characteris ...sation of chords with a key and type as well as a chronological order with onset and duration of the chords.
    14 KB (2,188 words) - 11:48, 27 August 2012
  • 2012:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,354 words) - 09:45, 3 August 2012
  • 2012:MIREX Home
    ...the lead on running the 2012 <b>Query by Singing/Humming (QBSH)</b> and <b>Audio Melody Extraction (AME) Tasks </b>. We do not foresee any special deviation ...he dataset are equipped with metadata (e.g., artist and title), as well as audio content analysis, semantic annotations, lyrics, etc. Because the data is o
    10 KB (1,554 words) - 05:31, 14 March 2013
  • 2012:MIREX2012 Results
    ==OVERALL RESULTS POSTERS <!--(First Version: Will need updating as last runs are completed)- ...w.music-ir.org/mirex/results/2012/mirex_2012_poster.pdf MIREX 2012 Overall Results Posters (PDF)]
    5 KB (655 words) - 21:21, 5 October 2012
  • 2013:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,367 words) - 11:16, 10 June 2013
  • 2013:Main Page
    * Publishing final results * [[2013:Audio Classification (Train/Test) Tasks]], incorporating:
    8 KB (1,225 words) - 22:35, 29 June 2014
  • 2013:Task Captains
    * Publishing final results |[[2013:Audio Beat Tracking]]
    2 KB (294 words) - 16:14, 4 August 2013
  • 2013:MIREX2013 Results
    ==OVERALL RESULTS POSTERS <!--(First Version: Will need updating as last runs are completed)- ...w.music-ir.org/mirex/results/2013/mirex_2013_poster.pdf MIREX 2013 Overall Results Posters (PDF)]
    5 KB (688 words) - 23:23, 24 October 2014
  • 2014:Main Page
    * Publishing final results ** Audio Classification (Train/Test) Tasks
    9 KB (1,330 words) - 14:32, 24 September 2014
  • 2014:Query by Tapping
    ...ovides query files in wave format as well as the corresponding human-label onset time in symbolic format. For this year's QBT task, we have three corpora fo ...ns both wav files (recorded via microphone) and onset files (human-labeled onset time).
    10 KB (1,499 words) - 13:31, 8 October 2014
  • 2014:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,382 words) - 18:32, 12 July 2014
  • 2014:Task Captains
    * Publishing final results |[[2014:Audio Beat Tracking]]
    2 KB (300 words) - 21:27, 20 October 2014
  • 2014:MIREX2014 Results
    ==Results by Task == ==OVERALL RESULTS POSTERS <!--(First Version: Will need updating as last runs are completed)-
    6 KB (836 words) - 12:56, 31 October 2014
  • 2014:Audio Downbeat Estimation
    This text has been adapted from the Audio Beat Tracking Wiki page. Please add your comments and discussion at the bo ...of downbeats in a collection of sound files. While this is similar to the Audio Beat Tracking task, here the aim is to find the first beat of each bar (mea
    10 KB (1,639 words) - 11:14, 6 October 2014
  • 2015:Task Captains
    * Publishing final results |[[2015:Audio Beat Tracking]]
    2 KB (329 words) - 15:07, 29 July 2015
  • 2015:Main Page
    * Publishing final results ** Audio Classification (Train/Test) Tasks
    9 KB (1,308 words) - 23:02, 17 February 2016
  • 2015:Query by Tapping
    ...ovides query files in wave format as well as the corresponding human-label onset time in symbolic format. For this year's QBT task, we have three corpora fo ...ns both wav files (recorded via microphone) and onset files (human-labeled onset time).
    10 KB (1,396 words) - 21:40, 26 March 2015
  • 2015:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,382 words) - 21:41, 26 March 2015
  • 2015:Audio Downbeat Estimation
    This text has been adapted from the Audio Beat Tracking Wiki page. Please add your comments and discussion at the bo ...of downbeats in a collection of sound files. While this is similar to the Audio Beat Tracking task, here the aim is to find the first beat of each bar (mea
    11 KB (1,692 words) - 03:25, 15 September 2015
  • 2015:Music/Speech Classification and Detection
    The need for music-speech classification is evident in many audio processing tasks which relate to real-life materials such as archives of fi ...ing that gap and consists of classification (binary decision per clip) and detection (identifying potentially overlapping segments of different classes)as two s
    10 KB (1,550 words) - 23:01, 17 February 2016
  • 2015:MIREX2015 Results
    ==Results by Task == ==OVERALL RESULTS POSTERS <!--(First Version: Will need updating as last runs are completed)-
    6 KB (750 words) - 10:20, 26 October 2015
  • 2016:Main Page
    * Publishing final results ** Audio Classification (Train/Test) Tasks
    9 KB (1,271 words) - 12:20, 7 May 2018
  • 2016:Task Captains
    * Publishing final results |[[2016:Audio Beat Tracking]]
    2 KB (360 words) - 15:12, 10 August 2016
  • 2016:Query by Tapping
    ...ovides query files in wave format as well as the corresponding human-label onset time in symbolic format. For this year's QBT task, we have three corpora fo ...ns both wav files (recorded via microphone) and onset files (human-labeled onset time).
    10 KB (1,394 words) - 15:38, 17 February 2016
  • 2016:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,367 words) - 15:39, 17 February 2016
  • 2016:Audio Downbeat Estimation
    This text has been adapted from the Audio Beat Tracking Wiki page. Please add your comments and discussion at the bo ...of downbeats in a collection of sound files. While this is similar to the Audio Beat Tracking task, here the aim is to find the first beat of each bar (mea
    11 KB (1,692 words) - 22:31, 17 February 2016
  • 2017:Task Captains
    * Publishing final results |[[2017:Audio Classification (Train/Test) Tasks]]
    4 KB (548 words) - 20:57, 17 September 2017
  • 2017:MIREX2017 Results
    ==Overall Results Poster== ...w.music-ir.org/mirex/results/2017/mirex_2017_poster.pdf MIREX 2017 Overall Results Posters (PDF)]
    4 KB (517 words) - 11:20, 26 April 2018
  • 2018:Main Page
    * Publishing final results ** [[2018:Audio Classification (Train/Test) Tasks]] <TC: Yun Hao (IMIRSEL)>, including
    9 KB (1,261 words) - 12:13, 22 August 2018
  • 2018:Task Captains
    * Publishing final results |[[2018:Audio Classification (Train/Test) Tasks]]
    3 KB (427 words) - 14:40, 26 July 2018
  • 2018:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,367 words) - 10:39, 7 May 2018
  • 2018:Audio Downbeat Estimation
    This text has been adapted from the Audio Beat Tracking Wiki page. Please add your comments and discussion at the bo ...of downbeats in a collection of sound files. While this is similar to the Audio Beat Tracking task, here the aim is to find the first beat of each bar (mea
    11 KB (1,692 words) - 10:42, 7 May 2018
  • 2018:Audio Tempo Estimation
    This task compares current methods for the extraction of tempo from musical audio. We distinguish between notated tempo and perceptual tempo and will test fo === Audio Formats ===
    11 KB (1,738 words) - 20:01, 2 August 2018
  • 2018:Music/Speech Classification and Detection
    The need for music-speech classification is evident in many audio processing tasks which relate to real-life materials such as archives of fi ...ing that gap and consists of classification (binary decision per clip) and detection (identifying potentially overlapping segments of different classes)as two s
    10 KB (1,548 words) - 10:54, 7 May 2018
  • 2018:MIREX2018 Results
    ==Overall Results Poster== [https://www.music-ir.org/mirex/results/2018/MIREX2018Poster.pdf MIREX 2018 Results Poster (PDF)]
    4 KB (476 words) - 16:18, 14 October 2020
  • 2019:Main Page
    * Publishing final results ** [[2019:Audio Fingerprinting]] <TC: Chung-Che Wang>
    8 KB (1,245 words) - 15:46, 27 January 2020
  • 2019:Task Captains
    * Publishing final results |[[2019:Audio Classification (Train/Test) Tasks]]
    3 KB (393 words) - 19:23, 22 June 2020
  • 2019:Audio Beat Tracking
    ...is to track each beat locations in a collection of sound files. Unlike the Audio Tempo Extraction task, which aim is to detect tempi for each file, the beat ...teners for a few excerpts. The length of each excerpt is 30 seconds. These audio recordings were selected to provide a stable tempo value, a wide distributi
    9 KB (1,398 words) - 11:47, 25 September 2019
  • 2019:Audio Downbeat Estimation
    This text has been adapted from the Audio Beat Tracking Wiki page. Please add your comments and discussion at the bo ...of downbeats in a collection of sound files. While this is similar to the Audio Beat Tracking task, here the aim is to find the first beat of each bar (mea
    11 KB (1,695 words) - 14:45, 1 October 2019

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