Active ordinal tuplewise querying for similarity learning (bibtex)
by G. Canal, S. Fenu and C. Rozell
Abstract:
Many machine learning tasks such as clustering, classification, and dataset search benefit from embedding data points in a space where distances reflect notions of relative similarity as perceived by humans. A common way to construct such an embedding is to request triplet similarity queries to an oracle, comparing two objects with respect to a reference. This work generalizes triplet queries to tuple queries of arbitrary size that ask an oracle to rank multiple objects against a reference, and introduces an efficient and robust adaptive selection method called InfoTuple that uses a novel approach to mutual information maximization. We show that the performance of InfoTuple at various tuple sizes exceeds that of the state-of-the-art adaptive triplet selection method on synthetic tests and new human response datasets, and empirically demonstrate the significant gains in efficiency and query consistency achieved by querying larger tuples instead of triplets.
Reference:
Active ordinal tuplewise querying for similarity learningG. Canal, S. Fenu and C. Rozell. In AAAI Conference on Artificial Intelligence (AAAI), February 2020. \textbfSelected for oral presentation. (Acceptance rate 20%).
Bibtex Entry:
@InProceedings{canal.19e,
     author = 	 {Canal, G. and Fenu, S. and Rozell, C.},
     title = 	 {Active ordinal tuplewise querying for similarity learning},
     booktitle =	 {AAAI Conference on Artificial Intelligence (AAAI)},
     year =	 2020,
  	 month = feb,
  address = {New York, NY},
  abstract = {Many machine learning tasks such as clustering, classification, and dataset search benefit from embedding data points in a space where distances reflect notions of relative similarity as perceived by humans. A common way to construct such an embedding is to request triplet similarity queries to an oracle, comparing two objects with respect to a reference. This work generalizes triplet queries to tuple queries of arbitrary size that ask an oracle to rank multiple objects against a reference, and introduces an efficient and robust adaptive selection method called InfoTuple that uses a novel approach to mutual information maximization. We show that the performance of InfoTuple at various tuple sizes exceeds that of the state-of-the-art adaptive triplet selection method on synthetic tests and new human response datasets, and empirically demonstrate the significant gains in efficiency and query consistency achieved by querying larger tuples instead of triplets.},
  url = {https://arxiv.org/abs/1910.04115},
 note = {\textbf{Selected for oral presentation.} (Acceptance rate 20\%).}
  }
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