Finding structure in logographic writing with library learning
Abstract: One hallmark of human language is its combinatoriality -- reusing a relatively small inventory of building blocks to create a far larger inventory of increasingly complex structures. In this paper, we explore the idea that combinatoriality in language reflects a human inductive bias toward representational efficiency in symbol systems. We develop a computational framework for discovering structure in a writing system. Built on top of state-of-the-art library learning and program synthesis techniques, our computational framework discovers known linguistic structures in the Chinese writing system and reveals how the system evolves towards simplification under pressures for representational efficiency. We demonstrate how a library learning approach, utilizing learned abstractions and compression, may help reveal the fundamental computational principles that underlie the creation of combinatorial structures in human cognition, and offer broader insights into the evolution of efficient communication systems.
- (2023). The Lambda Calculus. In E. N. Zalta U. Nodelman (Eds.), The Stanford encyclopedia of philosophy (Winter 2023 ed.). Metaphysics Research Lab, Stanford University. https://plato.stanford.edu/archives/win2023/entries/lambda-calculus/.
- (1991). A procedure for quantitatively comparing the syntactic coverage of english grammars. In Speech and natural language: Proceedings of a workshop held at pacific grove, california, february 19-22, 1991.
- (2023). Top-down synthesis for library learning. Proceedings of the ACM on Programming Languages, 7(POPL), 1182–1213.
- (2017). Language emergence. Annual Review of Linguistics, 3, 363–388.
- (1992). Two experiments on learning probabilistic dependency grammars from corpora. In Working notes of the aaai workshop statistically-based nlp techniques, 1992 (pp. 1–13).
- Chen, N. (2010). Yinxu jiaguwen moshi quanbian diyi juan [The complete compilation of rubbings and interpretations of oracle bone inscriptions from the yin ruins, volume one]. Beijing: Xianzhuang shuju.
- Chen, N. (2012). Yinxu jiaguwen zicibiao [Yin ruins oracle bone script lexicon]. (available at: https://www.xianqin.org/paper/Chennianfu_OBI_Table_20120409.pdf (Dec. 2023))
- Chen, P. (1999). Modern Chinese: History and sociolinguistics. 110 Midland Avenue, Port Chester, NY 10573-4390: Cambridge University Press.
- China National Institute of Standardization. (1980). GB 2312-1980: Code of Chinese graphic character set for information interchange–primary set (Chinese National Standard No. GB 2312-1980). Beijing, China: Standards Press of China.
- Cjklib Developers. (2012). cjklib - Han character library. https://cjklib.readthedocs.io/en/latest/.
- Duan, Y. (1821). Shuowen jiezi zhu [Explanation to Shuowen Jiezi]. China: Qi Ye Yan Xiang Tang.
- (2022). Synthesizing theories of human language with bayesian program induction. Nature Communications, 13(1), 5024.
- (2011). Chinese character turning stroke standard of GB 13000.1 character set (Chinese National Standard No. GF 2001-2001). Beijing, China: Minisitry of Education of PRC and State Language Commission.
- (2020). Storke orders of the commonly used standard Chinese characters (Chinese National Standard No. GF 0023-2020). Beijing, China: Minisitry of Education of PRC and State Language Commission.
- (2010). Planning Chinese characters: Reaction, evolution or revolution? Language in Society, 39(2), 291-292.
- (2019). How efficiency shapes human language. Trends in Cognitive Sciences, 23(5), 389–407.
- Goldsmith, J. (2001). Unsupervised learning of the morphology of a natural language. Computational linguistics, 27(2), 153–198.
- (2022). Simplification is not dominant in the evolution of Chinese characters. Open Mind, 6, 264–279.
- Handel, Z. (2013). Can a logographic script be simplified? lessons from the 20th century Chinese writing reform informed by recent psycholinguistic research. Scripta, 5, 21–66.
- Hanlin Academy. (1885). Kangxi zidian [Kangxi dictionary]. China: Tongwen Shuju.
- (1960). The origin of speech. Scientific American, 203(3), 88–97.
- (2019). Iconicity and structure in the emergence of combinatoriality. In Proceedings of the annual meeting of the cognitive science society (Vol. 41).
- (2011). Image representation by active curves. In 2011 international conference on computer vision (pp. 1808–1815).
- Kane, D. (2006). The Chinese language: Its history and current usage. Tuttle Publishing.
- (2019). Compound probabilistic context-free grammars for grammar induction. In Proceedings of the 57th annual meeting of the association for computational linguistics (pp. 2369–2385).
- (2022). Cumulative cultural evolution, population structure and the origin of combinatoriality in human language. Philosophical Transactions of the Royal Society B, 377(1843), 20200319.
- (2015). Compression and communication in the cultural evolution of linguistic structure. Cognition, 141, 87–102.
- (2011). One shot learning of simple visual concepts. In Proceedings of the annual meeting of the cognitive science society (Vol. 33).
- (2015). Human-level concept learning through probabilistic program induction. Science, 350(6266), 1332–1338.
- (2017). Signal dimensionality and the emergence of combinatorial structure. Cognition, 168, 1–15.
- (2016). Transfer of perceptual expertise: The case of simplified and traditional Chinese character recognition. Cognitive Science, 40(8), 1941–1968.
- (2005). Chinese character acquisition and visual skills in two Chinese scripts. Reading and Writing, 18, 99–128.
- Ministry of Education, ROC. (2011). Biaozhun zi yu jianhua zi duizhao shouce [Standard characters and simplified characters: A comparison manual]. Taipei: Ministry of Education, Republic of China (Taiwan).
- (2019). Evolving artificial sign languages in the lab: From improvised gesture to systematic sign. Cognition, 192, 103964.
- Rohsenow, J. S. (2004). Fifty years of script and written language reform in the p.r.c. In M. Zhou H. Sun (Eds.), Language policy in the people’s republic of china: Theory and practice since 1949 (pp. 21–43). Dordrecht: Springer Netherlands.
- (2022). A language of thought for the mental representation of geometric shapes. Cognitive Psychology, 139, 101527.
- Sampson, G. (1985). Writing systems. London, UK: H utchinson.
- (2011). The gradual emergence of phonological form in a new language. Natural language & linguistic theory, 29, 503–543.
- (2003). Iterated learning: A framework for the emergence of language. Artificial life, 9(4), 371–386.
- (2015). Culture: copying, compression, and conventionality. Cognitive Science, 39(1), 171–183.
- TCA, China. (2022). Unicode WG2 Doc N5191: THX Shuowen properties table. https://www.unicode.org/wg2/docs/n5191-THX-Properties-Table.pdf.
- (2014). Emergence of combinatorial structure and economy through iterated learning with continuous acoustic signals. Journal of Phonetics, 43, 57–68.
- Wang, W. S. (1973). The Chinese language. Scientific American, 228(2), 50–63.
- (2022). Identifying concept libraries from language about object structure. In Proceedings of the annual meeting of the cognitive science society (Vol. 44).
- Woon, W. L. (1987). Chinese writing: Its origin and evolution (Vol. 2). University of East Asia.
- (2018). Efficient compression in color naming and its evolution. Proceedings of the National Academy of Sciences, 115(31), 7937–7942.
- (2009). The table of indexing Chinese character commponent (Chinese National Standard No. GF 0011-2009). Beijing, China: Minisitry of Education of PRC and State Language Commission.
- (2011). Simplifying Chinese characters: Not a simple matter. In J. Fishman O. Garcia (Eds.), Handbook of language and ethnic identity volume 2: The success-failure continuum in language and ethnic identity efforts (pp. 168–179). Oxford University Press.
- (2018). The evolution of combinatorial structure in language. Current Opinion in Behavioral Sciences, 21, 138–144.
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