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EVALITA Evaluation of NLP and Speech Tools for Italian - December 17th, 2020

 | 
Valerio Basile
, 
Danilo Croce
, 
Maria Maro
, 
et al.

KIPoS: Part-of-speech Tagging on Spoken Language

KIPoS @ EVALITA2020: Overview of the Task on KIParla Part of Speech Tagging

Cristina Bosco, Silvia Ballarè, Massimo Cerruti, Eugenio Goria e Caterina Mauri

Abstract

L’articolo descrive il primo task sul Part of Speech tagging di lingua parlata tenutosi nella campagna di valutazione Evalita. Usufruendo di una risorsa che raccoglie trascrizioni di lingua italiana (il corpus KIParla), annotate appositamente per KIPoS, il task è stato focalizzato intorno a tre valutazioni con lo scopo di confrontare i risultati raggiunti sul parlato formale con quelli ottenuti sul parlato informale. Il corpus di dati ed i risultati raggiunti dai partecipanti sono presentati insieme alla discussione di quanto emerso dall’esperienza di questo task.

Testo integrale

The construction of part of the corpus has been possible thanks to the financing of the Fondazione CRT under the Erogazioni ordinarie 2018 program. The KIParla corpus has been made possibile thanks to SIR Project ’LEAdHOC’ (n. RBSI14IIG0), funded by MIUR. We would like to thank also the students from our BA and MA courses at the Universities of Bologna and Torino, who participated in collecting and transcribing the data.

1. Motivation

1Even (Bosco et al. 2020) though in the last decades we have witnessed an increase in the resources available for the study of spoken Italian, a great unbalance can still be observed between spoken and written corpora, from different angles. Written corpora are generally larger, are able to provide a lot of information about the texts they include, and may count on a vast array of computational tools for morphological analysis and syntactic parsing. Conversely, spoken corpora of Italian are generally smaller, often give a minimum of information concerning the speakers and the context in which the interaction takes place and, finally, provide at most basic PoS-tagging and lemmatization tools. This, of course, poses considerable limitations on the searches that may be performed on these resources, eventually leading to a possible written language bias due to the different availability and richness of information of written vs. spoken corpora (Linell 2005).

2As a consequence of this unbalance, corpus-based sociolinguistic analyses of spoken Italian, which need a comprehensive set of metadata, have rarely been put to the test on publicly available speech corpora. In fact, most sociolinguistic studies have been conducted on ad hoc-collected datasets, see inter al. (Alfonzetti 2002; Mereu 2019).

3The KIParla corpus (Mauri et al. 2019) (661k tokens approximately), which is available at the website http://www.kiparla.it, has been designed to overcome some shortcomings of previous resource tools. KIParla is a corpus of spoken Italian which encompasses various types of interactions between speakers of different origins and socioeconomic backgrounds. It consists of speech data collected in Bologna and Turin between 2016 and 2019, and contains two independent modules, i.e. KIP (cf. sec. 3) and ParlaTO. Among other things, KIParla provides a wide range of metadata, including situational characteristics (such as the symmetrical vs. asymmetrical relationship between the participants) and socio-demographic information for each speaker (such as age and level of education). Nevertheless, the lack of PoS-tagging and lemmatization currently places severe limits on its application.

4In order to enrich the scenario of investigation to be applied on the KIParla corpus, we proposed the KIPoS task. Following the experience of the Evalita 2016 PoSTWITA task on PoS tagging Italian Social Media Texts (Bosco et al. 2016) and the subsequent development of an Italian treebank for social media (Sanguinetti et al. 2017, 2018), where the issues related to a particularly challenging written text genre were addressed, KIPoS offers the opportunity of addressing the theoretical and methodological challenges related to PoS tagging of Italian spontaneous speech texts. Carrying out this task means processing a type of data that is known to be problematic for computational treatment, that is unplanned spoken language (as opposed to experimental speech data). PoS tagging of this corpus entails dealing with both a wide range of spontaneous speech phenomena and a great amount of sociolinguistic variation.

5The most challenging aspects to be addressed in the unconstrained speech of KIParla are:

  • To identify mode-specific phenomena, such as repetitions, reformulations, fillers, incomplete syntactic structures, etc.

  • To trace a relevant set of non-standard alternatives back to the same linguistic phenomenon (e.g. the presence of socio-geographically marked forms like annà or andà, equal to standard Italian andare "to go"), either assigning them to the correct part-of-speech, or working out an ad-hoc solution.

  • To deal with different types of interaction and registers (casual conversations, interviews, office hours, etc.) with a variable number of participants (1 to 5), each transcribed on a separate line and corresponding to an autonomous text string.

6PoS-tagging of data from KIParla corpus is intended to bring an improvement to the current practices in use for tagging and parsing spoken Italian. Furthermore, this result is also significant for the purposes of (socio)linguistic research, in that the availability of annotated spoken corpora enables the researcher to validate previous assumptions based on smaller or less informative datasets, but also to collect knowledge to be meaningfully used in the development of automatic conversation systems and chatbots.

2. Definition of the task

7Given the innovative features of KIParla, we proposed KIPoS as a task for EVALITA 2020 (Basile et al. 2020) to address the issues involved in the adaptation of a PoS tagger to the specific features of oral text, in order to systematically represent those features and to provide the mean to access to their specificities. We provided therefore data for training (i.e. Development Set, henceforth DEVSET) and testing (Test Set, henceforth TESTSET) systems organized in two ensembles which respectively represent formal (DEVSET–formal and TESTSET–formal) and informal texts (DEVSET–informal and TESTSET–informal). This allowed us to consider one main task and two subtasks, which are described as follows:

  • Main task - general: training on all given data (both DEVSET–formal and DEVSET–informal) and testing on all test set data (both TESTSET–formal and TESTSET–informal)

  • Subtask A - crossFormal: training on data from DEVSET–formal only, and testing separately on data from formal texts (TESTSET–formal) and from informal texts (TESTSET–informal)

  • Subtask B - crossInformal: training on data from DEVSET–informal only, and testing separately on data from formal texts (TESTSET–formal) and from informal texts (TESTSET–informal).

8While all tasks are oriented to investigate how challenging can it be to PoS-tag spontaneous speech data, the cross ones are especially useful for validating the hypothesis that some differences occur between the tagging of formal conversations and that of informal conversations. As we will see in section 5 and 6, this hypothesis is partially confirmed by results. Some example useful to draw the difference among the registers is provided in the next section.

3. Datasets

Table 1: The sizes of the datset

Dataset

Register

Speakers

Turns

Tokens

DEVSET

Formal

5

1.998

13.864

Informal

11

3.804

19.259

TESTSET

Formal

2

459

3.642

Informal

2

582

3.532

9All the data provided for the KIPoS task are extracted from the KIP module (see Section 1), which includes various communicative situations occurring in the academic context. As explained in detail in (Mauri et al. 2019), the recordings involve five different types of interactions, each of which is assigned for the aims of KIPoS either to the section of formal texts or to the section of informal texts (mainly on the basis of the relationship between the participants, i.e. asymmetrical vs. symmetrical).

10The KIP corpus structure can thus be outlined as follows:

  • Formal dataset:
    – lessons
    – office hours
    – oral examinations

  • Informal dataset:
    – semi-structured interviews
    – casual conversations.

11Below are examples of formal (1) and informal (2) texts.

  • 1 KIP Corpus, BOC1001, oral examination

(1)1

BO088: una volta che carlo magno conquisto’ l’italia fu permesso ad anselmo di tornare eh a mantova BO088: nel settecentosettantaquattro BO088: ehme cosi’ po pote’ riprendere la sua attivita’ prima eh di creazione della biblioteca BO088: perche’ secondo appunto l’uso eh delle biblioteche eh BO088: medioev medievali diciamo prima eh vi era BO088: mh la insomma la raccolta di libri dall’esterno

  • 2 KIP Corpus, BOA3001, casual conversation

(2)2

BO003: povero cristo sono andata a beccare questo BO002: ma poi scusa il piu’ carino di tutti lo cornifichi BO003: si’ si’ si’ esa poi secondo me lui e’ il piu’ carino di tutti BO003: cioe’ tra per i miei gusti tra il gruppo BO002: no eh BO002: carino sia BO002: di viso ma anche BO003: poi e’ anche il piu’ si’ si’ si’ e’ cornificatissimo non cornificato

12Both excerpts feature spontaneous speech phenomena, such as fillers, repetitions and reformulations. However, example 1 shows several characteristics of formal styles, either cross-linguistically shared (e.g. clausal subordination, passive construction, abstract and specific terms) or language-specific (e.g. existential construction with vi as pre-copular proform); while example 2 displays various features which are typical of informal styles, such as simple sentence structure and pragmatically-marked word orders (e.g. il più carino di tutti lo cornifichi), multi-functional words (e.g. carino), colloquialisms (e.g. povero cristo, beccare, cornifichi, cornificato), elatives (e.g. cornificatissimo), deictics (e.g. questo, lui) and discourse markers (e.g. cioè, scusa).

13All speakers were informed of the aims of the project, agreed to the recording and signed a consent form.

14The set of data exploited for KIPoS precisely consists of around 200K tokens, corresponding to approximately one-third of the whole KIParla corpus, with an equal proportion of informal and formal speech data.

Table 2: The teams which participated to KIPoS and their affiliation

Team

Affiliation

UniBO

FICLIT – University of Bologna

UniBA

University of Bari "Aldo Moro"

KLUMSy

Friedrich Alexander Universität Erlangen-Nürnberg & Universität Stuttgart

  • 3 https://universaldependencies.org/it/index.html [link not available]
  • 4 We thank three students for their precious help: Filippo Mulinacci, Martina Pittalis and Roberto Ru (...)
  • 5 All the data annotate for KIPoS are available at https://github.com/boscoc/kipos2020, with the lice (...)

15For the purposes of KIPoS, the UDpipe trained on all the treebanks available for Italian within the Universal Dependencies repository3 has been applied on this 200K tokens portion of the KIParla corpus. Among these data, approximately 30K tokens have been submitted to a careful manual check and correction4 and released as training sets of the KIPoS task (i.e. DEVSET–formal and DEVSET–informal). From the remaining automatically annotated data, we extracted the formal-TESTSET and informal-TESTSET, and we also manually checked and validated them. Finally, we released as a silver standard (i.e. SILVERSET) the remaining data. They have been also made available together with the other data5 to be used for training participants’ systems.

3.1 Annotation

  • 6 The alphanumeric code used to name the KIP’s conversations provides information about the city in w (...)

16As far as the annotation is concerned, for the purpose of the task, the original orthographic transcriptions were provided in a tab-delimited .txt format. Three are the main identifiers we used in this format, respectively indicating the conversation (alphanumeric), the speaker’s ID (alphanumeric) and the position of the turn (numeric) within the context of the conversation. For instance, the example below includes the first three turns of the conversation "BOD2018"6, in which three different speakers are involved ("1_MP_BO118", "2_MP_BO118" and "3_AM_BO140"):

# conversation = BOD2018
# speaker = 1_MP_BO118
# turn = 1
# text = dovresti parlarmi della tua casa
1 dovresti AUX
2-3 parlarmi VERB_PRON
2 parlar VERB
3 mi PRON
4-5 della ADP_A
4 di ADP
5 la DET
6 tua DET
7 casa NOUN

# conversation = BOD2018
# speaker = 2_MP_BO118
# turn = 2
# text = attuale
1 attuale ADJ

# conversation = BOD2018
# speaker = 3_AM_BO140
# turn = 3
# text = mh sì
1 mh PARA
2 sì INTJ

17The format and the labels for tagging the part of speech of the KIPoS data are compliant with that provided in the Universal Dependencies Italian treebanks. Data were indeed released in a CoNNL-U - like format, but which only includes the three first columns of it, separated by tab keys as usually. For a detailed list and description of the tagset used in KIPoS datasets, see the Appendix at the end of this paper.

Task

DEVSET

TESTSET

Team

Score

Baseline (from POSTWITA)

0.9319

Main

formal and informal

formal

UniBO

0.934880

KLUMSy

0.875629

UniBA

0.815819

informal

UniBO

0.911316

KLUMSy

0.882368

UniBA

0.793684

Task A

formal

formal

KLUMSy

0.873672

UniBA

0.787311

informal

KLUMSy

0.875789

UniBA

0.757895

Task B

informal

formal

KLUMSy

0.878144

UniBA

0.771101

informal

KLUMSy

0.881053

UniBA

0.775000

3.2 Tokenization Issues

18For what concerns words including multiple tokens, in the data released for the development and training of participant systems (DEVSET–formal and DEVSET–informal), we annotated their compound and splitting both. See for instance, in the first turn of the example above lines 2-3, 2 and 3: a verb with clitic suffix occurs and it is annotated as a compound in line 2-3, while its components, i.e. the verb and the clitic, are separately annotated on line 2 and 3 respectively.
In contrast, for the purpose of the evaluation, the format applied on the test set (TESTSET–formal and TESTSET–informal) only includes a word for each line, regardless of the fact that a word may be composed of more than one token. This makes the format of the test set slightly different from that used in the development data, but more compliant with the evaluation scripts and procedures. An example of this format follows, which consists in the first turn of the example above:

# conversation = BOD2018
# speaker = 1_MP_BO118
# turn = 1
# text = dovresti parlarmi della tua casa
1 dovresti AUX
2 parlarmi VERB_PRON
3 della ADP_A
4 tua DET
5 casa NOUN

19In this example, the verb with clitic suffix "parlarmi" (speak to me) has been annotated as a compound on a single line, i.e. line 2.

4. Evaluation measures

20For the KIPoS task a single measure has been used for the evaluation of participants’ runs, i.e. accuracy, which is defined as the number of correct Part-of-Speech tags assignment divided by the total number of tokens in the gold TESTSET. The evaluation metric will be based on a token-by token comparison and only a single tag is allowed for each token.
The evaluation is performed in a black box approach, where only the systems output is evaluated.

5. Participation and Results

21As depicted in table 3, where the main task and the two subtasks results are presented at glance, three teams submitted their runs for KIPoS (see table 2 for their affiliation). Nevertheless, one team participated to the main task only, while the other two provided results for Task A and B too.

22The three teams applied different approaches. UniBA team used a combination of two taggers implementing two different approaches, namely stochastic Hidden Markov Model and rule-based.

23UniBO applied a fine-tuning approach to Part of Speech tagging that is based on a pre-trained neural language BERT-derived model (UmBERTo) and an adapted fine-tuning script.
KLUMSy used a tagger based on the averaged structured perceptron, which supports domain adaptation and can incorporate external resources for dealing with the limited availability of in-domain data.

24The overall higher accuracy has been achieved in the main task by the UniBO team on the TESTSET-formal. The availability of a larger training corpus for the main task, which includes the DEVSET–formal and the DEVSET–informal both, and the results calculated on both the portions of the TESTSET allowed, as expected, the achievement of the KIPoS overall best score. This is confirmed also by the fact that all teams provided their best runs in it, for formal and informal register both. Even if the official submission of UniBO did not include the runs for Task A and B, the results it provided in its report (Tamburini 2020) show indeed that also this team has ranked worst in Task A and B than in the main one. More precisely, for Task A, it achieved 0.8647 accuracy on TESTSET–formal and 0.8316 on TESTSET–informal, while in Task B it achieved 0.8974 on TESTSET–formal and 0.8952 on TESTSET–informal.
As far as the other teams are concerned, UniBA provided in its report (Izzi and Ferilli 2020) also the results achieved using a version of the TESTSET where a few errors detected after the official evaluation has been fixed. This allowed a small improvement in their scores (e.g. in the main task, +0.0078 for formal and +0.0056 for informal register).
The KLUMSy team provided the best runs for both registers in Task A and B, but in its runs, because of a misunderstanding of the guidelines about the annotation of contractions in the TESTSET (which is slightly different with respect to the DEVSET), a certain amount of mis-tagged tokens occurred. After they were fixed, also the scores of this team were improved (with an increase that varies from 0.0456 to 0.0187) with respect to the official ones reported in table 3, as described in the report of this team (Proisl and Lapesa 2020).

25Considered that the PoS tagging is a task mostly solved, it is not surprising that the participants’ scores are quite high and close for all the tracks. The larger difference observed between the best and the worst score is indeed 0.126, and it is referred to Task B on TESTSET–formal.
Given the peculiarity of oral text on which KIPoS is focused, it seems not especially meaningful a comparison of our results with state-of-the-art Pos taggers results for the written standard language. A more interesting comparison can be instead developed with respect to the scores achieved within the PoSTWITA task (Bosco et al. 2016) on written texts extracted from social media. This genre is indeed often considered in between written and oral, sharing some feature with the former and some with the latter. Using the best PoSTWITA task accuracy score (0.9319) as our baseline (see table 3), we can observe that the best scores achieved in KIPoS are in line with this result. This confirms the hypothesis that oral text can be considered as almost equally hard to be morphologically tagged than social media.

26As far as the distinction between formal and informal conversation drawn in the KIPoS datasets is concerned, a general trend of better scoring in formal data tagging can be observed, but some meaningful difference among participant systems occurs. For all subtasks UniBO best scored in formal text, while KLUMSy did the same in informal data. UniBA achieved instead its best scores on TESTSET–formal with the exception of Task B where its score for the informal test set is a little bit (0.0038) higher than that for the formal one.
Focusing on the cross subtasks A and B, we can moreover notice that systems were not equally influenced by the type of data exploited for training: UniBO provided best scores against TESTSET–formal also when trained on DEVSET–informal (Task B), while KLUMSy provided best scores against TESTSET–informal also when trained on DEVSET–formal (Task A). UniBA seems instead slightly more influenced by the features of data used in training.

6. Discussion and Conclusion

27The results described in this report can be only considered as preliminary. First of all, KIPoS is the first edition of a task about PoS tagging of spontaneous speech for Italian and there aren’t other results about this kind of task for the same language to be compared with. Second, the corpus used for KIPoS has been newly released for the purpose of the task and never used before. Participants provided some useful feedback about errors occurring in the DEVSET and TESTSET, but some further check should be applied for improving the quality of data. Finally, only three participants submitted their runs (and only two provided official runs for cross-genre tasks). Even if PoS tagging is among the tasks which are considered as mostly solved in literature, only a larger participation may allow a meaningful comparison among different approaches and results.

28Nevertheless, the KIPoS task produced the valuable result of making available a novel resource for the study of spoken Italian and for the advancement of NLP in this area. It can be of great relevance for the investigation of both spontaneous speech phenomena and sociolinguistic variation, but also e.g. in the development of chatbots and vocal recognition systems.
In particular, the insights gained within the context of this Evalita evaluation campaign for PoS tagging can pave the way for further investigating actual speech data. They provide a solid foundation for our future research also in the direction of more detailed morphological analysis and syntactic parsing, especially within the framework of Universal Dependencies where we would like to release the KIPoS dataset in the near future.

Bibliografia

Giovanna Alfonzetti. 2002. La Relativa Non-Standard. Italiano Popolare O Italiano Parlato? Palermo: Centro di Studi Filologici e Linguistici Siciliani.

Valerio Basile, Danilo Croce, Di Maro Maria, and Lucia C. Passaro. 2020. “EVALITA 2020: Overview of the 7th Evaluation Campaign of Natural Language Processing and Speech Tools for Italian.” In Proceedings of Seventh Evaluation Campaign of Natural Language Processing and Speech Tools for Italian. Final Workshop (EVALITA 2020), edited by Valerio Basile, Danilo Croce, Di Maro Maria, and Lucia C. Passaro. Online: CEUR.org.

Cristina Bosco, Silvia Ballarè, Massimo Cerruti, Eugenio Goria, and Caterina Mauri. 2020. “KIPoS @ EVALITA2020: Overview of the Task on KIParla Part of Speech tagging.” In Proceedings of Seventh Evaluation Campaign of Natural Language Processing and Speech Tools for Italian. Final Workshop (EVALITA 2020), edited by Valerio Basile, Danilo Croce, Maria Di Maro, and Lucia C. Passaro. Online: CEUR.org.

Cristina Bosco, Fabio Tamburini, Andrea Bolioli, and Alessandro Mazzei. 2016. “Overview of the EVALITA 2016 Part Of Speech on TWitter for ITAlian task.” In Proceedings of Evalita 2016.

Giovanni Luca Izzi, and Stefano Ferilli. 2020. “UniBA@KIPoS: A Hybrid Approach for Part-of-Speech Tagging.” In Proceedings of the 7th Evaluation Campaign of Natural Language Processing and Speech Tools for Italian (Evalita 2020), edited by Valerio Basile, Danilo Croce, Maria Di Maro, and Lucia C. Passaro. Online: CEUR.org.

Per Linell. 2005. The Written Language Bias in Linguistics: Its Nature, Origins and Transformations. London – New York: Routledge.

Caterina Mauri, Silvia Ballarè, Eugenio Goria, Massimo Cerruti, and Francesco Suriano. 2019. “KIParla Corpus: A New Resource for Spoken Italian.” In Proceedings of the 6th Italian Conference on Computational Linguistics (Clic-It 2019), edited by Raffaella Bernardi, Roberto Navigli, and Giovanni Semeraro. Online: CEUR.org.

Daniela Mereu. 2019. Il Sardo Parlato a Cagliari. Milano: Franco Angeli.

Thomas Proisl, and Gabriella Lapesa. 2020. “KLUMSy@KIPoS: Experiments on Part-of-Speech Tagging of Spoken Italian.” In Proceedings of the 7th Evaluation Campaign of Natural Language Processing and Speech Tools for Italian (Evalita 2020), edited by Valerio Basile, Danilo Croce, Maria Di Maro, and Lucia C. Passaro. Online: CEUR.org.

Manuela Sanguinetti, Cristina Bosco, Alberto Lavelli, Alessandro Mazzei, and Fabio Tamburini. 2018. “PoSTWITA-UD: an Italian Twitter Treebank in Universal Dependencies.” In Proceedings of the 11th Language Resources and Evaluation Conference (Lrec 2018), 1768–75.

Manuela Sanguinetti, Cristina Bosco, Alessandro Mazzei, Alberto Lavelli, and Fabio Tamburini. 2017. “Annotating Italian social media texts in Universal Dependencies.” In Proceedings of the Fourth International Conference on Dependency Linguistics (Depling 2017), 229–39.

Fabio Tamburini. 2020. “UniBO@KIPoS: Fine-tuning the Italian “BERTology" for PoS-tagging Spoken Data.” In Proceedings of the 7th Evaluation Campaign of Natural Language Processing and Speech Tools for Italian (Evalita 2020), edited by Valerio Basile, Danilo Croce, Maria Di Maro, and Lucia C. Passaro. Online: CEUR.org.

Allegati

 

APPENDIX: The KIPoS tagset

Tag

Value(s)

Examples

ADJ

• Qualifying, numeral, possessive adjectives
• Interrogative adjectives
• Adjectives used as pro-forms

una bella casa
quanti anni hai?
-ci vediamo domani? -esatto

ADP

• Prepositions
• Pospositions

di, a, da, senza te, tranne, ...
vent’anni fa

ADP_A

• Articled prepositions

dalla, nella, sulla, ...

ADV

• Adverbs
• Interrogative adverbs

lo metto qui
non ricordo
come si chiama

AUX

• Auxiliaries
• Modals
• Periphrastic auxiliaries

essere, avere
potere, volere, dovere
sta mangiando, viene visto, ...

CCONJ

• Coordinating conjunctions
• Discourse markers with predominantly connective function

e, ma, o, però, anzi, quindi,

DET

• Articles

• Demonstratives

• Numerals

• Possessives

• Quantifiers

ho visto un film
la senti
questa voce?
ho giocato
tre numeri al lotto non nominare mia sorella alcuni studenti sono assenti

DIA

• Italo-Romance dialects

c’erano due fiulin

INTJ

• Interjections

sì, no, ecco, ...

LIN

• Languages other than Italian

vi saluto guys

NEG

• Sentence negation

non

NOUN

• Nouns of any type except proper nouns

ho visto un re

NUM

• Numbers (but not numeral adjectives)

- quanti sono? -tre

PARA

• Paraverbal communication

eh, mh, oh, bla bla, …

PRON

• Personal and reflexive pronouns

• Interrogative pronouns

• Relative pronouns

io, me, tu, te, s´e, ...

chi?, cosa?, quale?, che?

il quale, dove, cui

PROPN

• Proper nouns

Gigi

SCONJ

• Subordinating conjunctions

dove, quando, perch´e ho detto che...
se vuoi

VERB

• Verbs

aveva vent’anni
era molto stanco

VERB_PRON

• Verb + clitic pronoun cluster

mangiarlo, donarglielo, …

X

 Other (e.g. truncated words)

fior-

 

Note

1 KIP Corpus, BOC1001, oral examination

2 KIP Corpus, BOA3001, casual conversation

3 https://universaldependencies.org/it/index.html [link not available]

4 We thank three students for their precious help: Filippo Mulinacci, Martina Pittalis and Roberto Russo of the Department of Modern Languages, Literatures and Cultures of the University of Bologna.

5 All the data annotate for KIPoS are available at https://github.com/boscoc/kipos2020, with the licence and the annotation guidelines.

6 The alphanumeric code used to name the KIP’s conversations provides information about the city in which the the data has been collected (BO= Bologna, TO=Turin) and the kind of interaction (A1=office hours, A3=free conversation, C1=exams, D1=lessons, D2=interviews). For example, BOD2018 is a semistructured interview recorded in Bologna.

Autori

Dipartimento di Filologia Classica e Italianistica, Università degli Studi di Bologna – silvia.ballare@unibo.it

Dipartimento di Studi Umanistici, Università degli Studi di Torino – massimosimone.cerruti@unito.it

Dipartimento di Studi Umanistici, Università degli Studi di Torino – eugenio.goria@unito.it

Dipartimento di Lingue, Letterature e Culture Moderne, Università degli Studi di Bologna – caterina.mauri@unibo.it

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