Atomized search length: Beyond user models

J Alex, K Hall, D Metzler - arXiv preprint arXiv:2201.01745, 2022 - arxiv.org
J Alex, K Hall, D Metzler
arXiv preprint arXiv:2201.01745, 2022arxiv.org
We argue that current IR metrics, modeled on optimizing user experience, measure too
narrow a portion of the IR space. If IR systems are weak, these metrics undersample or
completely filter out the deeper documents that need improvement. If IR systems are
relatively strong, these metrics undersample deeper relevant documents that could underpin
even stronger IR systems, ones that could present content from tens or hundreds of relevant
documents in a user-digestible hierarchy or text summary. We reanalyze over 70 TREC …
We argue that current IR metrics, modeled on optimizing user experience, measure too narrow a portion of the IR space. If IR systems are weak, these metrics undersample or completely filter out the deeper documents that need improvement. If IR systems are relatively strong, these metrics undersample deeper relevant documents that could underpin even stronger IR systems, ones that could present content from tens or hundreds of relevant documents in a user-digestible hierarchy or text summary. We reanalyze over 70 TREC tracks from the past 28 years, showing that roughly half undersample top ranked documents and nearly all undersample tail documents. We show that in the 2020 Deep Learning tracks, neural systems were actually near-optimal at top-ranked documents, compared to only modest gains over BM25 on tail documents. Our analysis is based on a simple new systems-oriented metric, 'atomized search length', which is capable of accurately and evenly measuring all relevant documents at any depth.
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