Past graduate electives/seminars
The seminar will consider syntax-PF interactions, broadly conceived. Some topics we'll look at are hierarchical representation and linearization, spellout and phases, ellipsis, syntactic copying and reduplication, and intonation. Particular emphases will be determined by the interests of the participants.
Requirements: do the reading, participate in discussion, write a couple short pieces and a longer research paper. Those taking the course for partial credit are welcome and will be asked to do a subset of the work.
An overview of the mathematical foundations of theoretical and computational linguistics. Topics covered include set theory, morphisms, logic and model theory, algebra, lattices, lambda calculus, probability theory, information theory, and basics of formal language theory. A strong emphasis is put on the linguistic application of the mathematical concepts in the student and analysis of natural language data.
Morphology is the study of words, word formation, and word analysis. This course is about computational morphology, which is the study of these topics from a computational perspective.
One of the most influential approaches today, and the one that drives much of the software on laptops and smartphones, is based on finite-state technology. Much of the course is dedicated to understanding how this technology works, to understanding how it relates to linguistic theories of morphology, and to becoming a proficient user of this technology for morphological analysis.
The goal of this course is to become familiar with both the theory and the practice of computational methods of morphological analysis and recognition. In particular we study weighted finite-state transducers and the composition operation, which generalizes many morphological processes including concatenation, truncation, root-and-pattern morphology and others. We pay special attention to irregular morphology and exceptions. Students will learn to use the grammar libraries Thrax and Pynini that are part of the openFST toolkit
In addition to these core topics, depending on the students' interests, additional topics covered include higher-level logical and DATR-like descriptions of morphology and the machine learning of morphology.
In this seminar we will look at issues involving three (related) topics in syntactic
theory: islands, edges, and phases. The first of these will involve going back a bit
into the syntactic literature to cover early discussion of islandhood, including subjacency
and barriers, and then look at how some island effects are (or are not) covered under
Edges and phases will then be discussed with respect to issues of successive cyclic movement, tucking-in, phasehood, dynamic phase theory, and relevant aspects of cartography.
Requirements: weekly readings, discussions, occasional short written responses, and a research paper (which can be joint work with others in the class)
Auditors (and folk taking it for less than 3 credits) are welcome. In order of priority, auditors are expected to (i) come to class (ii) do the primary readings (iii) do the short writing assignments (iv) be part of at least joint research project.
• Chomsky, Noam (1986) Barriers
• Adger, D., de Cat, C., and Tsoulas, G.(eds) (2004) Peripheries: syntactic edges and their effects.
• Numerous recent articles on syntactic movement