Difference between revisions of "2009:Audio Cover Song Identification"
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The text of this section is copied from the 2008 page. Please add your comments and discussions for 2009. | The text of this section is copied from the 2008 page. Please add your comments and discussions for 2009. | ||
− | The Audio Cover Song task was a new task for MIREX 2006 and was last run in 2008. It was closely related to the [[Audio Music Similarity and Retrieval]] (AMS) task as the cover songs were embedded in the Audio Music Similarity and Retrieval test collection. | + | The Audio Cover Song task was a new task for MIREX 2006 and was last run in 2008. It was closely related to the [[2009:Audio Music Similarity and Retrieval]] (AMS) task as the cover songs were embedded in the Audio Music Similarity and Retrieval test collection. |
==Task Description== | ==Task Description== | ||
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Using each of these cover song files in turn as as the "seed/query" file, we will examine the returned lists of items for the presence of the other 10 versions of the "seed/query" file. | Using each of these cover song files in turn as as the "seed/query" file, we will examine the returned lists of items for the presence of the other 10 versions of the "seed/query" file. | ||
+ | |||
+ | ==New Dataset for 2009== | ||
+ | On top of the previous Audio Cover Song dataset, we are going to use the [http://www.mazurka.org.uk/ Mazurka dataset]. We are going to randomly choose 11 versions from 49 mazurkas and run it as a separate subtask. The I/O format will be the same as previous years. Systems will return a distance matrix of 539x539. | ||
== Discussions for 2009 == | == Discussions for 2009 == | ||
− | + | Is there any interest in running a general identification sub-task? That is, the input would be a reference song and a test song, and the algorithm would classify the reference/test pair as either a reference/cover or a reference/non-cover. Ultimately, this is what we want any cover song detection algorithm to do and given the rather large strides the MIR community has made on cover song detection over the past couple years, I think this new sub-task would be both challenging and meaningful. - Suman Ravuri | |
=== Command Line Calling Format === | === Command Line Calling Format === | ||
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==Evaluation== | ==Evaluation== | ||
− | We could employ the same measures used in [[2007: | + | We could employ the same measures used in [[2007:Audio_Cover_Song_Identification]]. |
− | |||
− | |||
==Potential Participants== | ==Potential Participants== | ||
− | |||
* Rémi foucard & Mathieu Lagrange (Telecom ParisTech) | * Rémi foucard & Mathieu Lagrange (Telecom ParisTech) | ||
− | * Suman Ravuri (International Computer Science Institute/UC Berkeley) | + | * Suman Ravuri & Dan Ellis (International Computer Science Institute/UC Berkeley & Columbia respectively) - still interested. Mostly likely 1 algorithm with a fairly low probability (< 15%) of another algorithm. |
+ | * Joan Serrà (Music Technology Group, Universitat Pompeu Fabra) - One algorithm | ||
+ | * Teppo E. Ahonen (Dept. of Computer Science, University of Helsinki) |
Latest revision as of 22:58, 19 December 2011
Contents
2009 AUDIO COVER SONG IDENTIFICATION TASK OVERVIEW
The text of this section is copied from the 2008 page. Please add your comments and discussions for 2009.
The Audio Cover Song task was a new task for MIREX 2006 and was last run in 2008. It was closely related to the 2009:Audio Music Similarity and Retrieval (AMS) task as the cover songs were embedded in the Audio Music Similarity and Retrieval test collection.
Task Description
Within the 1000 pieces in the Audio Cover Song database, there are embedded 30 different "cover songs" each represented by 11 different "versions" for a total of 330 audio files (16bit, monophonic, 22.05khz, wav). The "cover songs" represent a variety of genres (e.g., classical, jazz, gospel, rock, folk-rock, etc.) and the variations span a variety of styles and orchestrations.
Using each of these cover song files in turn as as the "seed/query" file, we will examine the returned lists of items for the presence of the other 10 versions of the "seed/query" file.
New Dataset for 2009
On top of the previous Audio Cover Song dataset, we are going to use the Mazurka dataset. We are going to randomly choose 11 versions from 49 mazurkas and run it as a separate subtask. The I/O format will be the same as previous years. Systems will return a distance matrix of 539x539.
Discussions for 2009
Is there any interest in running a general identification sub-task? That is, the input would be a reference song and a test song, and the algorithm would classify the reference/test pair as either a reference/cover or a reference/non-cover. Ultimately, this is what we want any cover song detection algorithm to do and given the rather large strides the MIR community has made on cover song detection over the past couple years, I think this new sub-task would be both challenging and meaningful. - Suman Ravuri
Command Line Calling Format
$ /path/to/submission <collection_list_file> <query_list_file> <working_directory> <output_file> <collection_list_file>: Text file containing 1000 full path file names for the 1000 audio files in the collection (including the 330 query documents). Example: /path/to/coversong/collection.txt <query_list_file> : Text file containing the 330 full path file names for the 330 query documents. Example: /path/to/coversong/queries.txt <working_directory> : Full path to a temporary directory where submission will have write access for caching features or calculations. Example: /tmp/submission_id/ <output_file> : Full path to file where submission should output the similarity matrix (1000 header rows + 330 x 1000 data matrix). Example: /path/to/coversong/results/submission_id.txt
Input Files
The collection lists file format will be of the form:
/path/to/audio/file/000.wav\n /path/to/audio/file/001.wav\n /path/to/audio/file/002.wav\n ... * 996 rows omitted * ... /path/to/audio/file/999.wav\n
The query lists file format will be of the form:
/path/to/audio/file/182.wav\n /path/to/audio/file/245.wav\n /path/to/audio/file/432.wav\n ... * 326 rows omitted * ... /path/to/audio/file/973.wav\n
For a total of 330 rows -- query ids are randomly assigned from the pool of 1000 collection ids.
Lines will be terminated by a '\n' character.
Output File
The only output will be a distance matrix file that is 330 rows by 1000 columns in the following format:
Example distance matrix 0.1 (replace this line with your system name) 1 path/to/audio/file/1.wav 2 path/to/audio/file/2.wav 3 path/to/audio/file/3.wav ... N path/to/audio/file/N.wav Q/R 1 2 3 ... N 1 0.0 1.241 0.2e-4 ... 0.4255934 2 1.241 0.000 0.6264 ... 0.2356447 3 50.2e-4 0.6264 0.0000 ... 0.3800000 ... ... ... ... ... 0.7172300 5 0.42559 0.23567 0.38 ... 0.000
All distances should be zero or positive (0.0+) and should not be infinite or NaN. Values should be separated by a TAB.
As N (collection searched for covers) is 1000 and there are 330 original tracks, the distance matrix should be preceded by 1000 rows of file paths and should be composed of 1000 columns of distance (separated by tab characters) and 330 rows (one for each original track). Each row corresponds to a particular query song (the track to find covers of). Please ensure that the query songs are listed in exactly the same order as they appear in the list file you are passed.
Evaluation
We could employ the same measures used in 2007:Audio_Cover_Song_Identification.
Potential Participants
- Rémi foucard & Mathieu Lagrange (Telecom ParisTech)
- Suman Ravuri & Dan Ellis (International Computer Science Institute/UC Berkeley & Columbia respectively) - still interested. Mostly likely 1 algorithm with a fairly low probability (< 15%) of another algorithm.
- Joan Serrà (Music Technology Group, Universitat Pompeu Fabra) - One algorithm
- Teppo E. Ahonen (Dept. of Computer Science, University of Helsinki)