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=== Multiple sequence alignment ===
Barzilay and Lee<ref name=Barzilay>{{cite conference|last1=Barzilay|first1=Regina|last2=Lee|first2=Lillian|title=Learning to Paraphrase: An Unsupervised Approach Using Multiple-Sequence Alignment|conference=Proceedings of HLT-NAACL 2003|date=May–June 2003|url=
* finding recurring patterns in each individual corpus, i.e. "{{mvar|X}} (injured/wounded) {{mvar|Y}} people, {{mvar|Z}} seriously" where {{mvar|X, Y, Z}} are variables
* finding pairings between such patterns the represent paraphrases, i.e. "{{mvar|X}} (injured/wounded) {{mvar|Y}} people, {{mvar|Z}} seriously" and "{{mvar|Y}} were (wounded/hurt) by {{mvar|X}}, among them {{mvar|Z}} were in serious condition"
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This is achieved by first clustering similar sentences together using [[n-gram]] overlap. Recurring patterns are found within clusters by using multi-sequence alignment. Then the position of argument words is determined by finding areas of high variability within each cluster, aka between words shared by more than 50% of a cluster's sentences. Pairings between patterns are then found by comparing similar variable words between different corpora. Finally, new paraphrases can be generated by choosing a matching cluster for a source sentence, then substituting the source sentence's argument into any number of patterns in the cluster.
=== Phrase-based
Paraphrase can also be generated through the use of [[statistical machine translation#Phrase-based translation|phrase-based translation]] as proposed by Bannard and Callison-Burch.<ref name=Bannard>{{cite conference |last1=Bannard|first1=Colin|last2=Callison-Burch|first2=Chris|title=Paraphrasing Bilingual Parallel Corpora |conference=Proceedings of the 43rd Annual Meeting of the ACL |place=Ann Arbor, Michigan|pages=597–604|year=2005|url=https://dl.acm.org/citation.cfm?id=1219914}}</ref> The chief concept consists of aligning phrases in a [[pivot language]] to produce potential paraphrases in the original language. For example, the phrase "under control" in an English sentence is aligned with the phrase "unter kontrolle" in its German counterpart. The phrase "unter kontrolle" is then found in another German sentence with the aligned English phrase being "in check," a paraphrase of "under control."
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=== Transformers ===
With the introduction of [[Transformer (machine learning model)|Transformer models]], paraphrase generation approaches improved their ability to generate text by scaling [[neural network]] parameters and heavily parallelizing training through [[Feedforward neural network|feed-forward layers]].<ref>{{Cite book |last1=Zhou |first1=Jianing |last2=Bhat |first2=Suma |title=Proceedings of the 2021 Conference on Empirical Methods in Natural Language Processing |chapter=Paraphrase Generation: A Survey of the State of the Art |date=2021 |chapter-url=https://aclanthology.org/2021.emnlp-main.414 |language=en |___location=Online and Punta Cana, Dominican Republic |publisher=Association for Computational Linguistics |pages=5075–5086 |doi=10.18653/v1/2021.emnlp-main.414|s2cid=243865349 |doi-access=free }}</ref> These models are so fluent in generating text that human experts cannot identify if an example was human-authored or machine-generated.<ref>{{Cite journal |last1=Dou |first1=Yao |last2=Forbes |first2=Maxwell |last3=Koncel-Kedziorski |first3=Rik |last4=Smith |first4=Noah |last5=Choi |first5=Yejin |date=2022 |title=Is GPT-3 Text Indistinguishable from Human Text? Scarecrow: A Framework for Scrutinizing Machine Text |url=https://aclanthology.org/2022.acl-long.501 |journal=Proceedings of the 60th Annual Meeting of the Association for Computational Linguistics (Volume 1: Long Papers) |language=en |___location=Dublin, Ireland |publisher=Association for Computational Linguistics |pages=7250–7274 |doi=10.18653/v1/2022.acl-long.501|s2cid=247315430 |doi-access=free |arxiv=2107.01294 }}</ref> Transformer-based paraphrase generation relies on [[Autoencoder|autoencoding]], [[Autoregressive model|autoregressive]], or [[Seq2seq|sequence-to-sequence]] methods. Autoencoder models predict word replacement candidates with a one-hot distribution over the vocabulary, while autoregressive and seq2seq models generate new text based on the source predicting one word at a time.<ref>{{Cite journal |last1=Liu |first1=Xianggen |last2=Mou |first2=Lili |last3=Meng |first3=Fandong |last4=Zhou |first4=Hao |last5=Zhou |first5=Jie |last6=Song |first6=Sen |date=2020 |title=Unsupervised Paraphrasing by Simulated Annealing |url=https://www.aclweb.org/anthology/2020.acl-main.28 |journal=Proceedings of the 58th Annual Meeting of the Association for Computational Linguistics |language=en |___location=Online |publisher=Association for Computational Linguistics |pages=302–312 |doi=10.18653/v1/2020.acl-main.28|s2cid=202537332 |doi-access=free |arxiv=1909.03588 }}</ref><ref>{{Cite book |last1=Wahle |first1=Jan Philip |last2=Ruas |first2=Terry |last3=Meuschke |first3=Norman |last4=Gipp |first4=Bela |title=2021 ACM/IEEE Joint Conference on Digital Libraries (JCDL) |chapter=Are Neural Language Models Good Plagiarists? A Benchmark for Neural Paraphrase Detection
== Paraphrase recognition ==
=== Recursive
Paraphrase recognition has been attempted by Socher et al<ref name=Socher>{{Citation |last1=Socher |first1=Richard |last2=Huang |first2=Eric |last3=Pennington |first3=Jeffrey |last4=Ng |first4=Andrew |last5=Manning |first5=Christopher |title=Dynamic Pooling and Unfolding Recursive Autoencoders for Paraphrase Detection |chapter=Advances in Neural Information Processing Systems 24 |year=2011 |chapter-url=http://www.socher.org/index.php/Main/DynamicPoolingAndUnfoldingRecursiveAutoencodersForParaphraseDetection |access-date=2017-12-29 |archive-date=2018-01-06 |archive-url=https://web.archive.org/web/20180106173348/http://www.socher.org/index.php/Main/DynamicPoolingAndUnfoldingRecursiveAutoencodersForParaphraseDetection |url-status=dead }}</ref> through the use of recursive [[autoencoder]]s. The main concept is to produce a vector representation of a sentence and its components by recursively using an autoencoder. The vector representations of paraphrases should have similar vector representations; they are processed, then fed as input into a [[artificial neural network|neural network]] for classification.
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=== Transformers ===
Similar to how [[Transformer (machine learning model)|Transformer models]] influenced paraphrase generation, their application in identifying paraphrases showed great success. Models such as BERT can be adapted with a [[binary classification]] layer and trained end-to-end on identification tasks.<ref>{{Cite journal |last1=Devlin |first1=Jacob |last2=Chang |first2=Ming-Wei |last3=Lee |first3=Kenton |last4=Toutanova |first4=Kristina |title=Proceedings of the 2019 Conference of the North |date=2019 |url=http://aclweb.org/anthology/N19-1423
== Evaluation ==
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== See also ==
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== References ==
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