LITERARY AND LINGUISTIC COMPUTING

As part of the curriculum of the Master's Degree in Digital and Public Humanities, this course aims at providing the students with a working knowledge of the basic techniques for the computational annotation and analysis of written text.
The main goals of this course are:
- to provide the students with the basic technical tools for the computational treatment of textual data
- to introduce the students to the fundamental linguistic annotation techniques and tools
- to strengthen the students' knowledge of the Python programming language as well as to introduce them to some of its NLP modules, among which spaCy and gensim
- to stimulate critical thinking and the ability to think out of the box

1. Knowledge and understanding
- familiarity with the Python programming language and with some of its NLP/text mining packages (spaCy, gensim)
- familiarity with the most commonly used techniques of (morphosyntactic) linguistic annotation
- learning of the basic techniques for the extraction of linguistic knowledge from corpora
- knowledge of the principal levels of linguistic annotation
- familiarity with the most commonly used techniques for the representation of structured information extracted from text

2. Applying knowledge and understanding
- knowledge of the features and limitations of the most common computational linguistics tools and approaches, so as to be able to pick the most appropriate solution for a given linguistic research issue
- use of Python for the implementation of scripts for the quantitative and computational analysis of text
- ability to advance and test original and sounded hypotheses

3. Making judgements
- ability to implement self-development strategies to improve technical skills
- awareness of the technical and deontological issues connected to the automatic treatment of language
- ability to retrieve the most relevant literature and to use it critically
- ability to compare competing hypotheses

4. Communication skills
- ability to write a report to describe the process, progress and result of an original scientific research
- ability to interact with the other students and the professor

5. Learning skills
- ability to learn novel scripting languages (among which, R, PERL, Matlab, Javascript)
- ability to acquire technical knowledge pertaining to issues only indirectly linked to the automatic treatment of language (e.g. the statistical analysis)
- ability to learn novel technical tools for the automatic treatment of language (e.g. annotation tools)

Basic knowledge of the Python programming language

week 1: Text manipulation with Python
week 2: Automatic corpus annotation
week 3: Distributional semantics
week 4: Topic modeling
week 5: Stylometry & authorship attribution

Together with the Jupyter notebooks available on [the university e-learning platform](https://moodle.unive.it/ ) , the following background readings will provide the student with an in-depth explanation of the key concepts of the course:
- M. Baroni (2009) Distributions in text. In A. Lüdeling and M. Kytö (eds.), Corpus linguistics: An international handbook, Vol. 2, Mouton de Gruyter: 803-821. Available online at: http://sslmit.unibo.it/~baroni/publications/hsk_39_dist_rev2.pdf
- D.M. Blei (2012) *Probabilistic topic models*. Communications of the ACM, 55 (4): 77-84. Available online at: http://www.cs.columbia.edu/~blei/papers/Blei2012.pdf
- M. Davies (2015) Corpora: An introduction. In D. Biber and R. Reppen (eds.), The Cambridge Handbook of English Corpus Linguistics, Cambridge University Press: 11-31.
- M. C. de Marneffe and J. Nivre (2019) Dependency Grammar. Annual Review of Linguistics 5: 197-218.
- S.T. Gries and A. L. Berez (2017) Linguistic Annotation in/for Corpus Linguistics. In N. Ide and J. Pustejovsky (eds.), Handbook of Linguistic Annotation, Springer: 379-409. Available online at: http://www.stgries.info/research/2017_STG-ALB_LingAnnotCorpLing_HbOfLingAnnot.pdf
- S.T. Gries and J. Newman (2010) Creating And Using Corpora. In R. J. Podesva and D. Sharma (eds.), Research Methods in Linguistic, Cambridge University Press: 257-287. Available online at: http://www.stgries.info/research/2013_STG-JN_CreatingUsingCorpora_ResMethLing.pdf
- M. Hammond (2020) Python for Linguists. Cambridge University Press
- D. Jurafsky and J. H. Martin (2020) Speech and Language Processing, 3rd edition, DRAFT (ch. 4, 6). Available online at: https://web.stanford.edu/~jurafsky/slp3/
- A. Lenci (2018) Distributional Models of Word Meaning, Annual Review of Linguistics, 4: 151-171.
- T. Neal, K. Sundararajan, A. Fatima, Y. Yan, Y. Xiang, Y. and D. Woodard (2017) Surveying stylometry techniques and applications. ACM Computing Surveys (CSUR), 50 (6): 1-36. Available online at: https://dl.acm.org/doi/abs/10.1145/3132039

Students are required to carry out a programming project that should be described in detail in a written report and discussed face to face with the instructor during the oral exam. The aim of the project is to build an automatically annotated corpus and to use Python to extract the linguistic information that is needed to perform an innovative quantitative linguistic analysis. Note that the specific topic of the project should have been agreed upon with the instructor. The final report must be submitted electronically at least one week prior to the exam.

The project will be graded as follows:
- quality of the code: 40% of the final grade
- knowledge of the relevant literature and of the state-of-the-art: 30% of the final grade
- quality of the report: 20% of the final grade
- one‐on‐one discussion with the instructor: 10% of the final grade

Lecture-style presentations and lab sessions structured as follows:
- discussion of some programming exercises from the past homework
- overview of the session key concepts and principles
- work on the programming exercises in the relevant Jupyter notebook available on [the university e-learning platform](

English

oral

This subject deals with topics related to the macro-area "Cities, infrastructure and social capital" and contributes to the achievement of one or more goals of U. N. Agenda for Sustainable Development