{ "paper_id": "J15-1011", "header": { "generated_with": "S2ORC 1.0.0", "date_generated": "2023-01-19T03:03:35.515942Z" }, "title": "Spelling Error Patterns in Brazilian Portuguese", "authors": [ { "first": "Priscila", "middle": [ "A" ], "last": "Gimenes", "suffix": "", "affiliation": {}, "email": "" }, { "first": "Norton", "middle": [ "T" ], "last": "Roman", "suffix": "", "affiliation": {}, "email": "norton@usp.br.submission" }, { "first": "Ariadne", "middle": [ "M B R" ], "last": "Carvalho", "suffix": "", "affiliation": {}, "email": "" } ], "year": "", "venue": null, "identifiers": {}, "abstract": "Fifty years after Damerau set up his statistics for the distribution of errors in typed texts, his findings are still used in a range of different languages. Because these statistics were derived from texts in English, the question of whether they actually apply to other languages has been raised. We address this issue through the analysis of a set of typed texts in Brazilian Portuguese, deriving statistics tailored to this language. Results show that diacritical marks play a major role, as indicated by the frequency of mistakes involving them, thereby rendering Damerau's original findings mostly unfit for spelling correction systems, although still holding them useful, should one set aside such marks. Furthermore, a comparison between these results and those published for Spanish show no statistically significant differences between both languages-an indication that the distribution of spelling errors depends on the adopted character set rather than the language itself.", "pdf_parse": { "paper_id": "J15-1011", "_pdf_hash": "", "abstract": [ { "text": "Fifty years after Damerau set up his statistics for the distribution of errors in typed texts, his findings are still used in a range of different languages. Because these statistics were derived from texts in English, the question of whether they actually apply to other languages has been raised. We address this issue through the analysis of a set of typed texts in Brazilian Portuguese, deriving statistics tailored to this language. Results show that diacritical marks play a major role, as indicated by the frequency of mistakes involving them, thereby rendering Damerau's original findings mostly unfit for spelling correction systems, although still holding them useful, should one set aside such marks. Furthermore, a comparison between these results and those published for Spanish show no statistically significant differences between both languages-an indication that the distribution of spelling errors depends on the adopted character set rather than the language itself.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Abstract", "sec_num": null } ], "body_text": [ { "text": "Almost 50 years since Damerau's groundbreaking work was published (Damerau 1964) , the figures he set for the proportion of spelling errors in typed text, along with their classification, still remain in use. According to Damerau, over 80% of all misspelled words present a single error which, in turn, falls into one out of four categories, to wit, Insertion (an extra letter is inserted), Omission (one letter is missing), Substitution (one letter is wrong), and Transposition (two adjacent characters are transposed). In fact, these very same figures lie at the heart of much current mainstream research on related topics, from automatic text spelling correction (e.g., Pirinen and Lind\u00e9n 2014) to more advanced information retrieval techniques (e.g., Stein, Hoppe, and Gollub 2012) to optical character recognition techniques (e.g., Reynaert 2011) . The reason for such popularity may rest in the simplicity of the approach, whereby numbers can be assigned to the probability that a certain type of spelling error might take place, simply because that seems to be the frequency with which people make that kind of mistake. Surprisingly enough, even though Damerau derived his statistics uniquely from texts in English, his findings are applied, with very little to no adaptation at all, to research in a range of different languages, such as Basque (e.g., Aduriz et al. 1997) , Persian (e.g., Miangah 2014) , and Arabic (e.g., Alkanhal et al. 2012) . The question then becomes how appropriate these figures are when applied to languages other than English. In fact, some researchers have already noticed this potential flaw, and tried to adapt Damerau's findings to their own language, usually by modifying Damerau-Levenstein edit distance (Wagner and Fischer 1974) to match some language-specific data, but still without verifying the appropriateness of Damerau's statistics in the target language (e.g., Rytting et al. 2011; Richter, Stran\u00e1k, and Rosen 2012) , or by taking into account some feature of that language, such as the presence of diacritics, for example (e.g., Andrade et al. 2012) .", "cite_spans": [ { "start": 66, "end": 80, "text": "(Damerau 1964)", "ref_id": "BIBREF6" }, { "start": 673, "end": 697, "text": "Pirinen and Lind\u00e9n 2014)", "ref_id": "BIBREF11" }, { "start": 755, "end": 785, "text": "Stein, Hoppe, and Gollub 2012)", "ref_id": "BIBREF15" }, { "start": 837, "end": 851, "text": "Reynaert 2011)", "ref_id": "BIBREF12" }, { "start": 1360, "end": 1379, "text": "Aduriz et al. 1997)", "ref_id": null }, { "start": 1397, "end": 1410, "text": "Miangah 2014)", "ref_id": "BIBREF10" }, { "start": 1431, "end": 1452, "text": "Alkanhal et al. 2012)", "ref_id": "BIBREF1" }, { "start": 1744, "end": 1769, "text": "(Wagner and Fischer 1974)", "ref_id": "BIBREF16" }, { "start": 1910, "end": 1930, "text": "Rytting et al. 2011;", "ref_id": "BIBREF14" }, { "start": 1931, "end": 1964, "text": "Richter, Stran\u00e1k, and Rosen 2012)", "ref_id": "BIBREF13" }, { "start": 2079, "end": 2099, "text": "Andrade et al. 2012)", "ref_id": "BIBREF2" } ], "ref_spans": [], "eq_spans": [], "section": "Introduction", "sec_num": "1." }, { "text": "In this article, we move a step further by analyzing a set of typed texts from two different corpora in Brazilian Portuguese-a language spoken by over 190 million people 1 -and deriving statistics tailored to this language. We then compare our statistics with results obtained for Spanish (Bustamante, Arnaiz, and Gin\u00e9s 2006) . As we will show, the behavior demonstrated by native speakers of these languages follow a very similar pattern, straying from Damerau's original findings while, at the same time, holding them still useful. As a limitation, in this research we only account for non-word errors, that is, errors that, once made, result in some non-existing word, and which may be detected by a regular dictionary look-up (Deorowicz and Ciura 2005) .", "cite_spans": [ { "start": 289, "end": 325, "text": "(Bustamante, Arnaiz, and Gin\u00e9s 2006)", "ref_id": "BIBREF5" }, { "start": 730, "end": 756, "text": "(Deorowicz and Ciura 2005)", "ref_id": "BIBREF7" } ], "ref_spans": [], "eq_spans": [], "section": "Introduction", "sec_num": "1." }, { "text": "As an indication of the impact of these results, we added a new module (Gimenes, Roman, and Carvalho 2014) 2 to OpenOffice Writer 3 -a freely available word processor-so as to reorder its suggestions list according to the statistics presented in this article. Within Writer, when typing Pao, instead of P\u00e3o ('bread' in Portuguese), the correct form comes in fifth place in the suggestion list, with Poca, Poc\u00e1, Po\u00e7a, and Pr\u00f3\u00e7a coming in the first four positions. With this module, it was observed that, for the first testing corpus, in 27.34% of the cases there was an improvement over Writer's ranking (i.e., the correct form was ranked higher in the list), whereas in 5.84% the new list was actually worse, and in 66.82% no changes were observed. In the second corpus, an improvement was observed in 19.90% of the cases, in 9.00% figures were worse, with 71.10% remaining unchanged. Some 10-21% increase in accuracy is not something to be neglected, especially at the price of changing weights in an edit distance scheme.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Introduction", "sec_num": "1." }, { "text": "One of the first efforts to derive statistics similar to those by Damerau in a language other than English was made by Medeiros (1995) , who analyzed a set of corpora in European Portuguese. In his work, Medeiros found that 80.1% of all spelling errors would fit into one of Damerau's categories. He also noticed that around 20% of all linguistic errors would be related to the use of diacritics, meaning that they should be taken into account during string edit distance or probability calculations. By linguistic errors, the author meant linguistically motivated errors, as opposed to those caused by slipping fingers in a keyboard, for example. However illustrative, Medeiros's findings suffer from a major drawback, to the extent that he relied on pre-existing lists of erroneous words in the related literature, along with handwritten errors made by high school students, with only part of the data coming from e-mail exchanges-that is, from actual typed text. The problem with this approach is that these data come without any frequency analysis, which renders them inappropriate for the application of computer techniques based on statistics, also making it hard to compare to any findings related to error frequency.", "cite_spans": [ { "start": 119, "end": 134, "text": "Medeiros (1995)", "ref_id": "BIBREF9" } ], "ref_spans": [], "eq_spans": [], "section": "Related Work", "sec_num": "2." }, { "text": "Spanish was another language found to confirm Damerau's findings (Bustamante, Arnaiz, and Gin\u00e9s 2006) . In that case, however, the authors made a much more detailed categorization of the errors they found, beyond the four classes originally proposed by Damerau, in a corpus of written (presumably typed) texts from Mexico and Spain. Still, a careful inspection into these categories (by grouping insertions and repetitions of the same letter, and taking errors related to the misuse of diacritics, capitalization, and cognitive replacements to be substitutions) leads one back to Damerau's four basic errors. In that case, a total of 86.7% of all errors were found to fit into one of these groups. The main difference, however, between both Damerau and Medeiros, and the work by Bustamante, Arnaiz, and Gin\u00e9s (2006) , is that the majority of spelling errors (54.9% of all errors, corresponding to around 49% of all single errors) were related to the misuse of diacritics, with special emphasis on their omission, which was responsible for 51.5% of all spelling errors (i.e., around 46% of all single errors) found in the corpus.", "cite_spans": [ { "start": 65, "end": 101, "text": "(Bustamante, Arnaiz, and Gin\u00e9s 2006)", "ref_id": "BIBREF5" }, { "start": 779, "end": 815, "text": "Bustamante, Arnaiz, and Gin\u00e9s (2006)", "ref_id": "BIBREF5" } ], "ref_spans": [], "eq_spans": [], "section": "Related Work", "sec_num": "2." }, { "text": "Finally, one of the latest additions to this list was made by Baba and Suzuki (2012) , in which the authors analyzed spelling errors both in English and Japanese, with the last one typed on a Roman keyboard (that is, transliterated). Interestingly, the authors report almost no difference in the distribution of errors among Damerau's four classes, both for English and Japanese. By looking at the details, however, they found some specific errors in Japanese, which they attribute to the phonological and orthographic characteristics of the language. In fact, a breakdown analysis of the four classes show accentuated differences in the type of substitutions (that is, a vowel by another vowel, a vowel by a consonant, etc.), insertions (inserted vowel vs. consonant), deletions (whether or not the deleted character was a repetition of some of its neighbors), and transpositions (adjacent characters versus syllables) that were made. As we will show in the following sections, this overall confirmation of Damerau's findings, but with remarked differences caused by each language's idiosyncrasies, seems to be the common behavior both in the related work and ours. This, in turn, may shed some light on the reasons why English-based spelling checking software does not seem to perform so badly in other languages, but still not as well as it could, should each language's own characteristics be taken into account.", "cite_spans": [ { "start": 62, "end": 84, "text": "Baba and Suzuki (2012)", "ref_id": "BIBREF4" } ], "ref_spans": [], "eq_spans": [], "section": "Related Work", "sec_num": "2." }, { "text": "Because we were interested in source texts written in Brazilian Portuguese, where authors were free to type with little to no intervention by spelling correction facilities, we decided to use the corpus presented in Roman et al. 2013, which comprises 1,808 texts, typed in by 452 different participants in a Web experiment, with a total of 62,858 words in length. As a source, this corpus has the advantages of (1) being produced by a number of different people of different ages, educational attainment, and background;", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "(2) being produced through a Web browser, without any help from spelling correction modules usually present in text editors; and (3) being freely available for download over the Web. We will refer to this corpus as C 1 .", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "In order to verify the statistics gathered on C 1 , in June 2011 we collected a corpus of blog posts from four different Web sites 4 that describe travel diaries along with comments by visitors. With a total of 26,418 words, spread over 192 posts, and being written in Brazilian Portuguese, this corpus presents the same advantages as C 1 , except for the fact that we cannot verify participants' details, which means we cannot make any statement on the participants' distribution according to age, background, and so forth. Still, the main characteristics of availability and free text production remain. We will refer to this corpus as C 2 . By comparing the statistics from both corpora we intend to reduce the effect of any bias related to writing style and characteristics of the participants.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "Given that our goal was to identify non-word errors, we relied on a commercial text editor to highlight misspellings in both corpora. The highlighted words were then manually inspected by one of the researchers, and errors were grouped in categories. Besides Damerau's four original sets, we identified three extra categories: errors involving the use of diacritics, errors related to the use of the cedilla, and space-related errors. The first of these groups was inspired by the observation that the use of diacritics is a key issue in Portuguese (Andrade et al. 2012) , potentially playing an important role in the making of spelling mistakes. Following Damerau, this group can be subdivided into four other subcategories: missing diacritic, addition of diacritic, right diacritic applied to the wrong character, and wrong diacritic applied to the right character.", "cite_spans": [ { "start": 549, "end": 570, "text": "(Andrade et al. 2012)", "ref_id": "BIBREF2" } ], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "The second group concerns the misuse of the cedilla-a special diacritical mark that in Portuguese can only be applied to the character c, resulting in \u00e7. The reason for this character deserving a whole category of its own lies in the existence of two distinct keyboard layouts in the Brazilian market: ABNT-2 and US-accents. The main difference between both layouts is that whereas ABNT-2 presents a separate key for \u00e7, that key does not exist on the US-Accents keyboard. Hence, while on ABNT-2 the user hits a single key to get a \u00e7, on US-Accents it is a composite-two keys must be pressed: the single quotation mark and c. Ultimately, errors involving the cedilla may be interpreted both as a regular character mistake, or an error related to the use of diacritics, depending on the keyboard.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "Finally, because space-related errors, although not so common (see Section 4), are usually difficult to deal with via spelling correctors, we decided to give them an independent set of categories. As a mistake, spaces have the annoying characteristic of not being handled by edit distance operations (Attia et al. 2012) , thereby passing undisturbed by systems that use string distance-based ranking when giving alternative spellings to the user. The reason for this problem is that, by joining two words together, for example, the number of mistakes dramatically rises, if one takes that new string to be a single word. Along with these three categories, there is a \"leftover\" fourth oneothers-comprising linguistic expression errors, first-letter capitalization, and wrong diminutive or augmentative. ", "cite_spans": [ { "start": 300, "end": 319, "text": "(Attia et al. 2012)", "ref_id": "BIBREF3" } ], "ref_spans": [], "eq_spans": [], "section": "Materials and Methods", "sec_num": "3." }, { "text": "Results both for C 1 and C 2 are shown in Tables 1 and 2. 5 Even though the total number of mistakes is almost the same in both corpora (1,139 for C 1 vs. 1,260 for C 2 ), the proportion of spelling errors in C 2 is more than twice as high as that of C 1 . In this case, C 1 had a mean error rate of 1.81% (that is, 0.0181 error per word), while C 2 reached 4.77%. This difference may be due to the fact that C 1 was generated by students from a university, that is, people with a higher educational level. It may also have something to do with the fact that blogs are more conversation-like, which may lead people to relax the spelling rules they choose to follow, especially when it comes to errors involving diacritics. Still, despite this discrepancy, a two-sample Kolmogorov-Smirnov test showed no statistically significant differences between these corpora, on the distribution of the proportion of errors among categories, neither for the total number of errors (ks = 0.4286, p = 0.1528), nor for the number of errors per word (ks = 0.4286, p = 0.1528 for single, ks = 0.2143, p = 0.9048 for double, ks = 0.2857, p = 0.6172 for triple, and ks = 0.1429, p = 0.9988 for multiple errors).", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "Results and Discussion", "sec_num": "4." }, { "text": "As it turns out, errors related to the use of diacritics correspond to approximately half of all spelling errors in both corpora (overall, 47.15% in C 1 and 50.08% in C 2 , corresponding to 49.48% of all single errors in C 1 and 58.84% in C 2 ), if we include in this sum cedilla-related errors. By taking the cedilla as a simple substitution, the numbers drop to 41.09% in C 1 and 45.63% in C 2 (overall), with 44.72% in C 1 and 57.08% in C 2 for single errors-still a substantial proportion. Interestingly, if one takes errors involving diacritics to be substitutions, then we end up with a total of 89.86% of all single errors falling into one of Damerau's categories in C 1 , with 88.91% in C 2 , thereby confirming Damerau's statistics. An analysis of the distribution of single errors among Damerau's four original categories (i.e., disregarding diacritic-related misspellings), and the distribution among the categories related to the use of diacritics also shows no statistically significant difference between both corpora (ks = 0.5, p = 0.6994 for Damerau's categories and ks = 0.6, p = 0.3291 for the diacritics-including cedilla-set). Finally, regarding the number of misspelled words, we have once again confirmed Damerau's results, in that over 85% of all wrong words, be they repetition of existing words or not, have a single spelling error. Table 3 shows these results. In this table, 6 we present the figures both when taking word repetitions into account and when ruling them out (that is, when keeping the statistics only for new words). This is also in line with the results obtained for Spanish (Bustamante, Arnaiz, and Gin\u00e9s 2006) , in which it was found that 86.7% of all spelling errors were single errors. ", "cite_spans": [ { "start": 1617, "end": 1653, "text": "(Bustamante, Arnaiz, and Gin\u00e9s 2006)", "ref_id": "BIBREF5" } ], "ref_spans": [ { "start": 1358, "end": 1365, "text": "Table 3", "ref_id": "TABREF2" } ], "eq_spans": [], "section": "Results and Discussion", "sec_num": "4." }, { "text": "For reasons noted in Section 2, we have chosen the work by Bustamante, Arnaiz, and Gin\u00e9s (2006) , on European and Mexican Spanish, as a benchmark against which to compare ours. Table 4 shows the comparison results. In this case, for the sake of comparison, and given that each research has a classification scheme of its own, we had both to reorganize some of the categories and present the figures in terms of number of words, instead of number of errors. Although results are shown considering cedilla-related errors to be cases of a missing diacritic, whenever appropriate the figures for taking such errors as simple substitutions are also presented within parentheses. By comparing the data distributions in Table 4 , one sees no differences 7 between our results (both for C 1 and C 2 ) and those for Spanish, no matter whether one takes cedillarelated errors to be a missing diacritic or a substitution. This, in turn, might indicate that such errors and their distributions are not related to the language or culture themselves, but instead to the set of characters (and corresponding diacritical marks) allowed within each specific language. Also, the data show the importance of taking diacritical marks into consideration when designing spelling correction systems for these languages. As it turned out, this type of error is responsible for over 40% of all wrong words, both in Brazilian Portuguese and Spanish.", "cite_spans": [ { "start": 59, "end": 95, "text": "Bustamante, Arnaiz, and Gin\u00e9s (2006)", "ref_id": "BIBREF5" } ], "ref_spans": [ { "start": 177, "end": 184, "text": "Table 4", "ref_id": "TABREF3" }, { "start": 713, "end": 720, "text": "Table 4", "ref_id": "TABREF3" } ], "eq_spans": [], "section": "Comparison to Other Languages", "sec_num": "4.1" }, { "text": "In this article we presented some statistics collected from two different corpora of typed texts in Brazilian Portuguese. Our first contribution is a description of the error rate distribution among the four original categories defined by Damerau (1964) , along with the distribution of errors related to the misuse of diacritical marks. Results show not only that Damerau's figures still hold, should we put aside diacritics, but also make a point about the importance such marks have on the misspelling of words in Brazilian Portuguese, as indicated by the frequency with which this type of error is made, thereby rendering spelling correction systems that rely solely on Damerau's results unfit for this language. On this account, a straightforward experiment with a commercially available text editor has shown a 10-21% improvement, depending on the testing corpus, in the ranking of suggestions for misspelled words.", "cite_spans": [ { "start": 239, "end": 253, "text": "Damerau (1964)", "ref_id": "BIBREF6" } ], "ref_spans": [], "eq_spans": [], "section": "Conclusion", "sec_num": "5." }, { "text": "As an additional contribution, we have shown that our results are very much like those obtained for Spanish (Bustamante, Arnaiz, and Gin\u00e9s 2006) , in that we could see no statistically significant difference on error distribution between these two languages. This, in turn, may be taken as an indication that the distribution of errors does not depend on language or culture, but instead on the character set that people are allowed to use. As such, it would not come as a surprise to find out that the same distribution can also be observed in other languages, such as Italian, French, and, to some extent, Turkish, for example, which make an intensive use of a similar set of characters. This is something that is worth investigating, and we leave it for future research.", "cite_spans": [ { "start": 108, "end": 144, "text": "(Bustamante, Arnaiz, and Gin\u00e9s 2006)", "ref_id": "BIBREF5" } ], "ref_spans": [], "eq_spans": [], "section": "Conclusion", "sec_num": "5." }, { "text": "According to 2010's demographic census: http://www.ibge.gov.br/home/estatistica/populacao/ censo2010/caracteristicas_da_populacao/resultados_do_universo.pdf. 2 Available at http://ppgsi.each.usp.br/arquivos/RelTec/PPgSI-001_2014.pdf. 3 https://www.openoffice.org/.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "", "sec_num": null }, { "text": "http://bragatte.wordpress.com/. http://guilhermebragatte.blogspot.com.br/. http://forasteironairlanda.wordpress.com/tag/nomadismo/. http://sussuemdublin.wordpress.com/2011/01/.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "", "sec_num": null }, { "text": "In these tables, for example, 22 insertions found in words with two errors mean that, from all errors found in such words, 22 were insertions, disregarding whether a word presents two insertions or an insertion along with some other type of error. To save space, rows filled with 0, that is categories with no examples, were removed. Space-related errors were also broken down into Substitution by Space, as in pre qualified instead of pre-qualified; Space Insertion, as in w ord instead of word; Space Transposition, as in m yword instead of my word; and Missing Space, as in myword.", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "", "sec_num": null }, { "text": "Total = 966 \u00d7 1 + 70 \u00d7 2 + 7 \u00d7 3 = 1, 127 errors, with another 12 distributed in the last category, for C 1 , and 911 \u00d7 1 + 95 \u00d7 2 + 37 \u00d7 3 = 1, 212 errors, with another 48 distributed in the last category, for C 2 .", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "", "sec_num": null }, { "text": "With cedilla being a diacritic omission: ks = 0.3, p = 0.7591 both between Spanish and C 1 , and between Spanish and C 2 . With cedilla being a character substitution: ks = 0.3, p = 0.7591 both between Spanish and C 1 , and between Spanish and C 2 .", "cite_spans": [], "ref_spans": [], "eq_spans": [], "section": "", "sec_num": null } ], "back_matter": [], "bib_entries": { "BIBREF0": { "ref_id": "b0", "title": "Nerea Ezeiza, Kepa Sarasola, and Miriam Urkia. 1997. A spelling corrector for Basque based on morphology", "authors": [ { "first": "Itziar", "middle": [], "last": "Aduriz", "suffix": "" }, { "first": "I\u00f1aki", "middle": [], "last": "Alegria", "suffix": "" }, { "first": "Xabier", "middle": [], "last": "Artola", "suffix": "" } ], "year": null, "venue": "Literary and Linguistic Computing", "volume": "12", "issue": "1", "pages": "31--38", "other_ids": {}, "num": null, "urls": [], "raw_text": "Aduriz, Itziar, I\u00f1aki Alegria, Xabier Artola, Nerea Ezeiza, Kepa Sarasola, and Miriam Urkia. 1997. A spelling corrector for Basque based on morphology. 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Errors per Word
Error CategorySingle Two Three Over ThreeTotal (%)
Insertion80298119 (10.45)
Omission13545114195 (17.12)
Transposition4020042 (3.69)
Substitution1351010146 (12.82)
Missing diacritic3953400429 (37.66)
Addition of diacritic1720019 (1.67)
Wrong diacritic in right letter1100011 (0.96)
Right diacritic in wrong letter90009 (0.79)
Missing cedilla46230069 (6.06)
Substitution by space10001 (0.09)
Space insertion10001 (0.09)
Space transposition11002 (0.17)
Missing space2610027 (2.37)
Other6900069 (6.06)
Total96614021121,139 (100)
", "text": "Number of spelling errors, separated according to the number of mistakes per word in C 1 .", "html": null, "type_str": "table" }, "TABREF1": { "num": null, "content": "
Errors per Word
Error CategorySingle Two Three Over ThreeTotal (%)
Insertion54202322119 (9.44)
Omission186653716304 (24.13)
Transposition21003 (0.24)
Substitution321716873 (5.79)
Missing diacritic51941112573 (45.48)
Addition of diacritic10102 (0.16)
Missing cedilla16319056 (4.44)
Other10115140130 (10.32)
Total911190111481,260 (100)
", "text": "Number of spelling errors, separated according to the number of mistakes per word in C 2 .", "html": null, "type_str": "table" }, "TABREF2": { "num": null, "content": "
With repetitionsWithout repetitions
ErrorsWords in C 1 (%) Words in C 2 (%) Words in C 1 (%) Words in C 2 (%)
1966 (92.3)911 (86.3)442 (86.9)513 (86.4)
270 (6.7)95 (9)62 (12.2)67 (11.3)
37 (0.7)37 (3.6)4 (0.8)11 (1.8)
Over 33 (0.3)12 (1.1)1 (0.1)3 (0.5)
Total1,046 (100)1,055 (100)509 (100)594 (100)
", "text": "Wrong word count, separated by the number of errors per word.", "html": null, "type_str": "table" }, "TABREF3": { "num": null, "content": "
Brazilian Portuguese
Error CategorySpanishC 1C 2
Insertion5.807.655.12
Omission6.8012.9117.63
Transposition0.003.820.19
Substitution16.2012.90 (17.30)3.03 (4.55)
Missing diacritic51.5042.16 (37.76) 50.71 (49.19)
Addition of diacritic2.902.490.10
Substitution of diacritic0.501.050.00
Space related2.402.770.00
Other1.946.609.57
Multi-Errors11.967.6513.65
", "text": "Absolute wrong word frequency in (%) in Spanish and Brazilian Portuguese.", "html": null, "type_str": "table" } } } }