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Russian dictionary with concreteness/abstractness indices
- Authors: Solovyev V.D.1, Volskaya Y.A.1, Andreeva M.I.1,2, Zaikin A.A.1
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Affiliations:
- Kazan (Volga region) Federal University
- Kazan State Medical University
- Issue: Vol 26, No 2 (2022): Computational Linguistics and Discourse Complexology
- Pages: 515-549
- Section: Articles
- URL: https://journals.rudn.ru/linguistics/article/view/31336
- DOI: https://doi.org/10.22363/2687-0088-29475
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Abstract
The demand for a Russian dictionary with indices of abstractness/concreteness of words has been expressed in a number of areas including linguistics, psychology, neurophysiology and cognitive studies focused on imaging concepts in human cognitive systems. Although dictionaries of abstractness/concreteness were compiled for a number of languages, Russian has been recently viewed as an under-resourced language for the lack of one. The Laboratory of Quantitative Linguistics of Kazan Federal University has implemented two methods of compiling dictionaries of abstract/concrete words, i.e. respondents survey and extrapolation of human estimates with the help of an original computer program. In this article, we provide a detailed description of the methodology used for assessing abstractness/concreteness of words by native Russian respondents, as well as control algorithms validating the survey quality. The implementation of the methodology has enabled us to create a Russian dictionary (1500 words) with indices of concreteness/abstractness of words, including those missing in the Russian Semantic Dictionary by N.Yu. Shvedova (1998). We have also created three versions of a machine dictionary of abstractness/concreteness based on the extrapolation of the respondents' ratings. The third, most accurate version contains 22,000 words and has been compiled with the use of a modern deep learning technology of neural networks. The paper provides statistical characteristics (histograms of the distribution of ratings, dispersion, etc.) of both the machine dictionary and the dictionary obtained by interviewing informants. The quality of the machine dictionary was validated on a test set of words by means of contrasting machine and human evaluations with the latter viewed as more credible. The purpose of the paper is to give a detailed description of the methodology employed to create a concrete/abstract dictionary, as well as to demonstrate the methodology of its application in theoretical and applied research on concrete examples. The paper shows the practical use of this vocabulary in six case studies: predicting the complexity of school textbooks as a function of the share of abstract words; comparing abstractness indices of Russian-English equivalents; assessing concreteness/abstractness of polysemantic words; contrasting ratings of different age groups of respondents; contrasting ratings of respondents with different levels of education; analyzing concepts of "concreteness” and “specificity”.
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Fig. 1. Histogram of ratings distribution
Fig. 2. Distribution of ratings difference prior to and after filtration
Fig. 3. Histogram of distribution of ratings dispersion
Fig. 4. Dispersions distribution with superimposed moving average line
Fig. 5. Ratings plot based on two age groups
Table 1. Words with major negative difference of ratings
Word | Group 1 ratings | Group 2 ratings | Word | Group 1 ratings | Group 2 ratings |
scouting | 1,533 | 2,133 | criterion | 1,867 | 3,267 |
report | 1,667 | 2,167 | hunt | 2,8 | 3,267 |
knot | 1,867 | 2,4 | gift | 2,967 | 3,467 |
agent | 1,967 | 2,467 | exertion | 3,067 | 3,6 |
decree | 2,133 | 2,633 | rate | 2,767 | 3,633 |
lecture | 2 | 2,667 | method | 3,167 | 3,667 |
acquaintance | 2,133 | 2,667 | intention | 3,333 | 3,833 |
interview | 1,833 | 2,8 | dullness | 3,467 | 4 |
inquiry | 2,133 | 2,8 | complaint | 3,1 | 4,033 |
ordeal | 2,333 | 2,867 | concentration | 3,7 | 4,267 |
wedding | 2,3 | 2,967 | opportunity | 3,833 | 4,4 |
Sunday | 2,5 | 2,967 | suffering | 3,933 | 4,433 |
statistics | 2,5 | 3,067 |
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|
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Table 2. Words with major positive difference of ratings
Word | Group 1 ratings | Group 2 ratings | Word | Group 1 ratings | Group 2 ratings |
ball | 1,767 | 1,267 | prey | 2,900 | 2,433 |
fog | 2,367 | 1,433 | nourishment | 2,967 | 2,467 |
hall | 2,133 | 1,500 | symbol | 3,033 | 2,533 |
filming | 2,567 | 2,067 | turn | 3,467 | 2,900 |
task | 2,588 | 2,080 | change | 3,600 | 3,100 |
meeting | 2,600 | 2,133 | career | 3,633 | 3,167 |
section | 3,067 | 2,200 | secret | 3,800 | 3,167 |
tempo | 3,533 | 2,300 | strain | 3,794 | 3,260 |
certificate | 2,833 | 2,367 | implementation | 3,900 | 3,433 |
standard | 3,133 | 2,400 | restoration | 4,300 | 3,567 |
Fig. 6. Ratings dispersion based on respondents’ education
Table 3. Russian-English ratings
# | Russian word | Rating (Rus.) | Rating (Eng.) | Rating difference | English word |
1 | sila | 340 | 339 | 1 | strength |
2 | derevo | 606 | 604 | 2 | tree |
3 | effekt | 288 | 295 | 7 | effect |
| … | … | … | … | … |
771 | administratcija | 559 | 331 | 268 | administration |
Fig. 7. Ratings difference in word combinations
Fig. 8. Ratings’ difference
Fig. 9. Negative difference between machine dictionary and survey results data
Fig. 10. Positive difference between machine dictionary and survey results data
Fig. 11. Ratings with extreme and mean values
Fig. 12. Word distribution in two-dimensional space of concreteness-specificity (Ivanov & Solovyev 2021)
Table 4. Russian Academic Corpus
Grade | Number of words | ||
Sciences | Humanities | TOTAL | |
1 | 21304 | 4757 | 26061 |
2 | 29284 | 28235 | 57519 |
3 | 53565 | - | 53565 |
4 | 51489 | 24621 | 76110 |
5 | 102467 | 19527 | 121994 |
6 | - | 159664 | 159664 |
7 | 75205 | 111788 | 186993 |
8 | - | 273251 | 273251 |
9 | 88335 | 390821 | 479156 |
10 | 207271 | 656072 | 863343 |
11 | - | 436322 | 436322 |
Итого | 628920 | 2105058 | 2733978 |
Table 5. Ratings of recalls | ||
Subject | Grade | Mean rating |
Primary school | 1-4 | +0,34 |
Biology | 5-7 | +0,49 |
Biology | 9-10 | +0,15 |
History | 10-11 | 0 |
Social studies | 5-8 | -0,11 |
Social studies | 9-11 | -0,15 |
Literature | 6-8 | +0,08 |
Literature | 9-11 | -0,14 |
MT Texts | 5 | 0,12 |
OT Texts | 5 | 0,17 |
Recalls | 5 | 0,27 |
About the authors
Valery D. Solovyev
Kazan (Volga region) Federal University
Email: maki.solovyev@mail.ru
ORCID iD: 0000-0003-4692-2564
Doctor Habil. of Physics and Mathematics, Professor, Chief Researcher of the Text Analytics Research Laboratory
18 Kremlevskaya St., Kazan, 420008, RussiaYulia A. Volskaya
Kazan (Volga region) Federal University
Email: kovaleva95julia@mail.ru
ORCID iD: 0000-0001-8276-5864
Assistant Professor of the Department of Applied and Experimental Linguistics, and Junior Research Fellow of the Neurocognitive Research Laboratory
18 Kremlevskaya St., Kazan, 420008, RussiaMariia I. Andreeva
Kazan (Volga region) Federal University; Kazan State Medical University
Email: lafruta@mail.ru
ORCID iD: 0000-0002-5760-0934
holds a PhD degree in Philology and is Associate Professor of the Department of Foreign Languages
18 Kremlevskaya St., Kazan, 420008, Russia; 49 Butlerov St., Kazan, 420012, RussiaArtem A. Zaikin
Kazan (Volga region) Federal University
Author for correspondence.
Email: kaskrin@gmail.com
ORCID iD: 0000-0002-5596-3176
Doctor of Physics and Mathematics and Associate Professor of the Department of Mathematical Statistics
18 Kremlevskaya St., Kazan, 420008, RussiaReferences
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