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whatiscamda [2008/02/28 14:15] pablo |
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- | CAMDA (1) was founded to provide a forum to critically assess different techniques used in microarray data mining. It aims to establish the state-of-the-art in microarray data mining, as well as identify progress and highlight the direction for future effort. To achieve these goals, CAMDA adopted the approach of community-wide experiment, letting the scientific community analyze the same standard data sets. Researchers worldwide are invited to take the CAMDA challenge. Accepted authors will be invited to present a 25 minute oral presentation. Those not invited to make a presentation may be invited to present a poster. Results of analyses are discussed and compared at the CAMDA conference. | + | CAMDA [[#References:|(1)]] was founded to provide a forum to critically assess different techniques used in microarray data mining. It aims to establish the state-of-the-art in microarray data mining, as well as identify progress and highlight the direction for future effort. To achieve these goals, CAMDA adopted the approach of community-wide experiment, letting the scientific community analyze the same standard data sets. Researchers worldwide are invited to take the CAMDA challenge. Accepted authors will be invited to present a 25 minute oral presentation. Those not invited to make a presentation may be invited to present a poster. Results of analyses are discussed and compared at the CAMDA conference. |
CAMDA, which began in 2000, was initiated by Simon Lin and Kimberly Johnson from the Duke University Bioinformatics Shared Resource. It is patterned after the molecular modeling community’s well-known CASP (2) experiment. In this sense, CAMDA is a functional genomics successor of the other well-known community-wide experiments, such as GASP (3) in genomics, CASP (2) in protein modeling, GAW (4) in statistical genetics, and PTC (5) in computational toxicology. | CAMDA, which began in 2000, was initiated by Simon Lin and Kimberly Johnson from the Duke University Bioinformatics Shared Resource. It is patterned after the molecular modeling community’s well-known CASP (2) experiment. In this sense, CAMDA is a functional genomics successor of the other well-known community-wide experiments, such as GASP (3) in genomics, CASP (2) in protein modeling, GAW (4) in statistical genetics, and PTC (5) in computational toxicology. | ||
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All individuals and groups from both academic and commercial entities are invited to join the award competition. | All individuals and groups from both academic and commercial entities are invited to join the award competition. | ||
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