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Widdows D and Peters S (2003), "Word Vectors and Quantum Logic Experiments with negation and disjunction"
BibTeX:
@inproceedings{Widdows2003WordVA,
  author = {Dominic Widdows and Stanley Peters},
  title = {Word Vectors and Quantum Logic Experiments with negation and disjunction},
  year = {2003},
  url = {https://api.semanticscholar.org/CorpusID:14230035}
}
Coecke B, de Felice G, Meichanetzidis K and Toumi A (2020), "Foundations for Near-Term Quantum Natural Language Processing", ArXiv. Vol. abs/2012.03755
BibTeX:
@article{Coecke2020FoundationsFN,
  author = {Bob Coecke and Giovanni de Felice and Konstantinos Meichanetzidis and Alexis Toumi},
  title = {Foundations for Near-Term Quantum Natural Language Processing},
  journal = {ArXiv},
  year = {2020},
  volume = {abs/2012.03755},
  url = {https://api.semanticscholar.org/CorpusID:227334565}
}
Widdows D and Cohen TA (2012), "Real, Complex, and Binary Semantic Vectors", In Quantum Interaction.
BibTeX:
@inproceedings{Widdows2012RealCA,
  author = {Dominic Widdows and Trevor A. Cohen},
  title = {Real, Complex, and Binary Semantic Vectors},
  booktitle = {Quantum Interaction},
  year = {2012},
  url = {https://api.semanticscholar.org/CorpusID:16536301}
}
Cohen TA, Widdows D, Schvaneveldt RW and Rindflesch TC (2010), "Logical Leaps and Quantum Connectives: Forging Paths through Predication Space", In AAAI Fall Symposium: Quantum Informatics for Cognitive, Social, and Semantic Processes.
BibTeX:
@inproceedings{Cohen2010LogicalLA,
  author = {Trevor A. Cohen and Dominic Widdows and Roger W. Schvaneveldt and Thomas C. Rindflesch},
  title = {Logical Leaps and Quantum Connectives: Forging Paths through Predication Space},
  booktitle = {AAAI Fall Symposium: Quantum Informatics for Cognitive, Social, and Semantic Processes},
  year = {2010},
  url = {https://api.semanticscholar.org/CorpusID:18399775}
}
Ashcroft M (2010), "Does Science Influence the Logic we Ought to Use: A Reflection on the Quantum Logic Controversy", Studia Logica. Vol. 95, pp. 183-206.
BibTeX:
@article{Ashcroft2010DoesSI,
  author = {Michael Ashcroft},
  title = {Does Science Influence the Logic we Ought to Use: A Reflection on the Quantum Logic Controversy},
  journal = {Studia Logica},
  year = {2010},
  volume = {95},
  pages = {183-206},
  url = {https://api.semanticscholar.org/CorpusID:123150993}
}
Aerts D, Broekaert J, Sozzo S and Veloz T (2013), "Meaning-Focused and Quantum-Inspired Information Retrieval", ArXiv. Vol. abs/1304.0104
BibTeX:
@article{Aerts2013MeaningFocusedAQ,
  author = {Diederik Aerts and Jan Broekaert and Sandro Sozzo and Tomás Veloz},
  title = {Meaning-Focused and Quantum-Inspired Information Retrieval},
  journal = {ArXiv},
  year = {2013},
  volume = {abs/1304.0104},
  url = {https://api.semanticscholar.org/CorpusID:18380257}
}
Aerts D, Gabora L, Sozzo S and Veloz T (2011), "Quantum Structure in Cognition: Fundamentals and Applications", ArXiv. Vol. abs/1104.3344
BibTeX:
@article{Aerts2011QuantumSI,
  author = {Diederik Aerts and Liane Gabora and Sandro Sozzo and Tomás Veloz},
  title = {Quantum Structure in Cognition: Fundamentals and Applications},
  journal = {ArXiv},
  year = {2011},
  volume = {abs/1104.3344},
  url = {https://api.semanticscholar.org/CorpusID:17510530}
}
Lorenz R, Pearson AN, Meichanetzidis K, Kartsaklis D and Coecke B (2021), "QNLP in Practice: Running Compositional Models of Meaning on a Quantum Computer", J. Artif. Intell. Res.. Vol. 76, pp. 1305-1342.
BibTeX:
@article{Lorenz2021QNLPIP,
  author = {Robin Lorenz and A. N. Pearson and Konstantinos Meichanetzidis and Dimitri Kartsaklis and Bob Coecke},
  title = {QNLP in Practice: Running Compositional Models of Meaning on a Quantum Computer},
  journal = {J. Artif. Intell. Res.},
  year = {2021},
  volume = {76},
  pages = {1305-1342},
  url = {https://api.semanticscholar.org/CorpusID:232046044}
}
Correia AD, Moortgat M and Stoof HTC (2021), "Quantum computations for disambiguation and question answering", Quantum Information Processing. Vol. 21
BibTeX:
@article{Correia2021QuantumCF,
  author = {Adriana D. Correia and Michael Moortgat and Henk T. C. Stoof},
  title = {Quantum computations for disambiguation and question answering},
  journal = {Quantum Information Processing},
  year = {2021},
  volume = {21},
  url = {https://api.semanticscholar.org/CorpusID:246295077}
}
Abbaszade M, Zomorodi M, Salari V and Kurian P (2023), "Toward Quantum Machine Translation of Syntactically Distinct Languages", ArXiv. Vol. abs/2307.16576
BibTeX:
@article{Abbaszade2023TowardQM,
  author = {Mina Abbaszade and Mariam Zomorodi and Vahid Salari and Philip Kurian},
  title = {Toward Quantum Machine Translation of Syntactically Distinct Languages},
  journal = {ArXiv},
  year = {2023},
  volume = {abs/2307.16576},
  url = {https://api.semanticscholar.org/CorpusID:260334460}
}
Meichanetzidis K, Toumi A, de Felice G and Coecke B (2020), "Grammar-Aware Question-Answering on Quantum Computers", ArXiv. Vol. abs/2012.03756
BibTeX:
@article{Meichanetzidis2020GrammarAwareQO,
  author = {Konstantinos Meichanetzidis and Alexis Toumi and Giovanni de Felice and Bob Coecke},
  title = {Grammar-Aware Question-Answering on Quantum Computers},
  journal = {ArXiv},
  year = {2020},
  volume = {abs/2012.03756},
  url = {https://api.semanticscholar.org/CorpusID:227335371}
}
Widdows D, Zhu D and Zimmerman C (2022), "Near-Term Advances in Quantum Natural Language Processing", ArXiv. Vol. abs/2206.02171
BibTeX:
@article{Widdows2022NearTermAI,
  author = {Dominic Widdows and Daiwei Zhu and Chase Zimmerman},
  title = {Near-Term Advances in Quantum Natural Language Processing},
  journal = {ArXiv},
  year = {2022},
  volume = {abs/2206.02171},
  url = {https://api.semanticscholar.org/CorpusID:249395558}
}
Meichanetzidis K, Toumi A, de Felice G and Coecke B (2020), "Grammar-aware sentence classification on quantum computers", Quantum Machine Intelligence. Vol. 5, pp. 1-16.
BibTeX:
@article{Meichanetzidis2020GrammarawareSC,
  author = {Konstantinos Meichanetzidis and Alexis Toumi and Giovanni de Felice and Bob Coecke},
  title = {Grammar-aware sentence classification on quantum computers},
  journal = {Quantum Machine Intelligence},
  year = {2020},
  volume = {5},
  pages = {1-16},
  url = {https://api.semanticscholar.org/CorpusID:256832721}
}
Metawei MA, Taher M, Eldeeb H and Nassar SM (2023), "A topic-aware classifier based on a hybrid quantum-classical model", Neural Computing and Applications. Vol. 35, pp. 18803-18812.
BibTeX:
@article{Metawei2023ATC,
  author = {Maha A. Metawei and Mohamed Taher and Hesham Eldeeb and Salwa M. Nassar},
  title = {A topic-aware classifier based on a hybrid quantum-classical model},
  journal = {Neural Computing and Applications},
  year = {2023},
  volume = {35},
  pages = {18803-18812},
  url = {https://api.semanticscholar.org/CorpusID:259566154}
}
Karamlou A, Pfaffhauser M and Wootton JR (2022), "Quantum Natural Language Generation on Near-Term Devices", ArXiv. Vol. abs/2211.00727
BibTeX:
@article{Karamlou2022QuantumNL,
  author = {Amin Karamlou and Marcel Pfaffhauser and James R. Wootton},
  title = {Quantum Natural Language Generation on Near-Term Devices},
  journal = {ArXiv},
  year = {2022},
  volume = {abs/2211.00727},
  url = {https://api.semanticscholar.org/CorpusID:253254972}
}
Guarasci R, Pietro GD and Esposito M (2022), "Quantum Natural Language Processing: Challenges and Opportunities", Applied Sciences.
BibTeX:
@article{Guarasci2022QuantumNL,
  author = {R. Guarasci and Giuseppe De Pietro and Massimo Esposito},
  title = {Quantum Natural Language Processing: Challenges and Opportunities},
  journal = {Applied Sciences},
  year = {2022},
  url = {https://api.semanticscholar.org/CorpusID:249333405}
}
Pandey S, Dadure P, Nunsanga MVL and Pakray P (2022), "Parts of speech tagging towards classical to quantum computing", 2022 IEEE Silchar Subsection Conference (SILCON). , pp. 1-6.
BibTeX:
@article{Pandey2022PartsOS,
  author = {Shyambabu Pandey and Pankaj Dadure and Morrel V. L. Nunsanga and Partha Pakray},
  title = {Parts of speech tagging towards classical to quantum computing},
  journal = {2022 IEEE Silchar Subsection Conference (SILCON)},
  year = {2022},
  pages = {1-6},
  url = {https://api.semanticscholar.org/CorpusID:256462967}
}
Pandey S, Basisth NJ, Sachan T, Kumari N and Pakray P (2023), "Quantum machine learning for natural language processing application", Physica A: Statistical Mechanics and its Applications.
BibTeX:
@article{Pandey2023QuantumML,
  author = {Shyambabu Pandey and Nihar Jyoti Basisth and Tushar Sachan and Neha Kumari and Partha Pakray},
  title = {Quantum machine learning for natural language processing application},
  journal = {Physica A: Statistical Mechanics and its Applications},
  year = {2023},
  url = {https://api.semanticscholar.org/CorpusID:260719644}
}
Shi J, Li Z, Lai WP, Li F, Shi R, Feng Y and Zhang S (2023), "Two End-to-End Quantum-Inspired Deep Neural Networks for Text Classification", IEEE Transactions on Knowledge and Data Engineering. Vol. 35, pp. 4335-4345.
BibTeX:
@article{Shi2023TwoEQ,
  author = {Jinjing Shi and Zhenhuan Li and Wei Ping Lai and Fangfang Li and Ronghua Shi and Yanyan Feng and Shichao Zhang},
  title = {Two End-to-End Quantum-Inspired Deep Neural Networks for Text Classification},
  journal = {IEEE Transactions on Knowledge and Data Engineering},
  year = {2023},
  volume = {35},
  pages = {4335-4345},
  url = {https://api.semanticscholar.org/CorpusID:244666399}
}
Zhao R, Shi J and Zhang S (2022), "QSAN: A Near-term Achievable Quantum Self-Attention Network", ArXiv. Vol. abs/2207.07563
BibTeX:
@article{Zhao2022QSANAN,
  author = {Renteng Zhao and Jinjing Shi and Shenmin Zhang},
  title = {QSAN: A Near-term Achievable Quantum Self-Attention Network},
  journal = {ArXiv},
  year = {2022},
  volume = {abs/2207.07563},
  url = {https://api.semanticscholar.org/CorpusID:250607600}
}
Zhao R, Shi J and Li X (2023), "QKSAN: A Quantum Kernel Self-Attention Network", ArXiv. Vol. abs/2308.13422
BibTeX:
@article{Zhao2023QKSANAQ,
  author = {Renteng Zhao and Jinjing Shi and Xuelong Li},
  title = {QKSAN: A Quantum Kernel Self-Attention Network},
  journal = {ArXiv},
  year = {2023},
  volume = {abs/2308.13422},
  url = {https://api.semanticscholar.org/CorpusID:261214827}
}
Schuld M and Killoran N (2018), "Quantum Machine Learning in Feature Hilbert Spaces.", Physical review letters. Vol. 122 4, pp. 040504.
BibTeX:
@article{Schuld2018QuantumML,
  author = {Maria Schuld and Nathan Killoran},
  title = {Quantum Machine Learning in Feature Hilbert Spaces.},
  journal = {Physical review letters},
  year = {2018},
  volume = {122 4},
  pages = {040504},
  url = {https://api.semanticscholar.org/CorpusID:73432134}
}
Aerts D, Arguëlles JA, Beltran L, Beltran L, Distrito I, de Bianchi MS, Sozzo S and Veloz T (2017), "Towards a Quantum World Wide Web", Theor. Comput. Sci.. Vol. 752, pp. 116-131.
BibTeX:
@article{Aerts2017TowardsAQ,
  author = {Diederik Aerts and Jonito Aerts Arguëlles and Lester Beltran and Lyneth Beltran and Isaac Distrito and Massimiliano Sassoli de Bianchi and Sandro Sozzo and Tomás Veloz},
  title = {Towards a Quantum World Wide Web},
  journal = {Theor. Comput. Sci.},
  year = {2017},
  volume = {752},
  pages = {116-131},
  url = {https://api.semanticscholar.org/CorpusID:18849734}
}
Aerts D and Beltran L (2021), "Are Words the Quanta of Human Language? Extending the Domain of Quantum Cognition", Entropy. Vol. 24
BibTeX:
@article{Aerts2021AreWT,
  author = {Diederik Aerts and Lester Beltran},
  title = {Are Words the Quanta of Human Language? Extending the Domain of Quantum Cognition},
  journal = {Entropy},
  year = {2021},
  volume = {24},
  url = {https://api.semanticscholar.org/CorpusID:238583562}
}
Aerts D and Beltran L (2022), "A Planck Radiation and Quantization Scheme for Human Cognition and Language", Frontiers in Psychology. Vol. 13
BibTeX:
@article{Aerts2022APR,
  author = {Diederik Aerts and Lester Beltran},
  title = {A Planck Radiation and Quantization Scheme for Human Cognition and Language},
  journal = {Frontiers in Psychology},
  year = {2022},
  volume = {13},
  url = {https://api.semanticscholar.org/CorpusID:245837675}
}
Plotnitsky A (2022), "“Most tantumising state of affairs”: Mathematical and non-mathematical in quantum-like understanding of thinking", Frontiers in Psychology. Vol. 13
BibTeX:
@article{Plotnitsky2022MostTS,
  author = {Arkady Plotnitsky},
  title = {“Most tantumising state of affairs”: Mathematical and non-mathematical in quantum-like understanding of thinking},
  journal = {Frontiers in Psychology},
  year = {2022},
  volume = {13},
  url = {https://api.semanticscholar.org/CorpusID:252204479}
}
Aerts D and Arguelles JA (2022), "Quantum Structure in Human Perception", ArXiv. Vol. abs/2208.03726
BibTeX:
@article{Aerts2022QuantumSI,
  author = {Diederik Aerts and Jonito Aerts Arguelles},
  title = {Quantum Structure in Human Perception},
  journal = {ArXiv},
  year = {2022},
  volume = {abs/2208.03726},
  url = {https://api.semanticscholar.org/CorpusID:251402982}
}
Busemeyer JR and Bruza P (2012), "Quantum Models of Cognition and Decision"
BibTeX:
@inproceedings{Busemeyer2012QuantumMO,
  author = {Jerome R. Busemeyer and Peter Bruza},
  title = {Quantum Models of Cognition and Decision},
  year = {2012},
  url = {https://api.semanticscholar.org/CorpusID:9199120}
}
Yearsley JM and Busemeyer JR (2016), "Quantum cognition and decision theories: A tutorial", Journal of Mathematical Psychology. Vol. 74, pp. 99-116.
Abstract: Models of cognition and decision making based on quantum theory have been the subject of much interest recently. Quantum theory provides an alternative probabilistic framework for modelling decision making compared with classical probability theory, and has been successfully used to address behaviour considered paradoxical or irrational from a classical point of view. The purpose of this tutorial is to give an introduction to quantum models, with a particular emphasis on how to build these models in practice. Examples are provided by the study of order effects on judgements, and we will show how order effects arise from the structure of the theory. In particular, we show how to derive the recent discovery of a particular constraint on order effects implied by quantum models, called the Quantum Question (QQ) Equality, which does not appear to be derivable from alternative accounts, and which has been experimentally verified to high precision. However the general theory and methods of model construction we will describe are applicable to any quantum cognitive model. Our hope is that this tutorial will give researchers the confidence to construct simple quantum models of their own, particularly with a view to testing these against existing cognitive theories.
BibTeX:
@article{YEARSLEY201699,
  author = {James M. Yearsley and Jerome R. Busemeyer},
  title = {Quantum cognition and decision theories: A tutorial},
  journal = {Journal of Mathematical Psychology},
  year = {2016},
  volume = {74},
  pages = {99-116},
  note = {Foundations of Probability Theory in Psychology and Beyond},
  url = {https://www.sciencedirect.com/science/article/pii/S0022249615000772},
  doi = {10.1016/j.jmp.2015.11.005}
}