Meaning-focused and Quantum-inspired Information Retrieval. Aerts, D., Broekaert, J., Sozzo, S., & Veloz, T. 2013.
Meaning-focused and Quantum-inspired Information Retrieval [link]Paper  abstract   bibtex   
In recent years, quantum-based methods have promisingly integrated the traditional procedures in information retrieval (IR) and natural language processing (NLP). Inspired by our research on the identification and application of quantum structures in cognition, more specifically our work on the representation of concepts and their combinations, we put forward a 'quantum meaning based' framework for structured query retrieval in text corpora and standardized testing corpora. This scheme for IR rests on considering as basic notions, (i) 'entities of meaning', e.g., concepts and their combinations and (ii) traces of such entities of meaning, which is how documents are considered in this approach. The meaning content of these 'entities of meaning' is reconstructed by solving an 'inverse problem' in the quantum formalism, consisting of reconstructing the full states of the entities of meaning from their collapsed states identified as traces in relevant documents. The advantages with respect to traditional approaches, such as Latent Semantic Analysis (LSA), are discussed by means of concrete examples.
@article{ aerts_meaning-focused_2013,
  title = {Meaning-focused and Quantum-inspired Information Retrieval},
  url = {http://arxiv.org/abs/1304.0104},
  abstract = {In recent years, quantum-based methods have promisingly integrated the traditional procedures in information retrieval ({IR}) and natural language processing ({NLP}). Inspired by our research on the identification and application of quantum structures in cognition, more specifically our work on the representation of concepts and their combinations, we put forward a 'quantum meaning based' framework for structured query retrieval in text corpora and standardized testing corpora. This scheme for {IR} rests on considering as basic notions, (i) 'entities of meaning', e.g., concepts and their combinations and (ii) traces of such entities of meaning, which is how documents are considered in this approach. The meaning content of these 'entities of meaning' is reconstructed by solving an 'inverse problem' in the quantum formalism, consisting of reconstructing the full states of the entities of meaning from their collapsed states identified as traces in relevant documents. The advantages with respect to traditional approaches, such as Latent Semantic Analysis ({LSA}), are discussed by means of concrete examples.},
  author = {Aerts, Diederik and Broekaert, Jan and Sozzo, Sandro and Veloz, Tomas},
  year = {2013},
  keywords = {information_retrieval}
}

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