CS 224U: Natural Language Understanding (LINGUIST 188, LINGUIST 288)
Projectoriented class focused on developing systems and algorithms for robust machine understanding of human language. Draws on theoretical concepts from linguistics, natural language processing, and machine learning. Topics include lexical semantics, distributed representations of meaning, relation extraction, semantic parsing, sentiment analysis, and dialogue agents, with special lectures on developing projects, presenting research results, and making connections with industry. Prerequisites: one of
LINGUIST 180,
CS 124,
CS 224N,
CS224S, or
CS221; and logical/semantics such as
LINGUIST 130A or B,
CS 157, or
PHIL150
Terms: Spr

Units: 34

Grading: Letter or Credit/No Credit
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
...
more instructors for CS 224U »
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
;
Huang, B. (TA)
;
Monroe, W. (TA)
;
Pai, S. (TA)
;
li, J. (TA)
LINGUIST 188: Natural Language Understanding (CS 224U, LINGUIST 288)
Projectoriented class focused on developing systems and algorithms for robust machine understanding of human language. Draws on theoretical concepts from linguistics, natural language processing, and machine learning. Topics include lexical semantics, distributed representations of meaning, relation extraction, semantic parsing, sentiment analysis, and dialogue agents, with special lectures on developing projects, presenting research results, and making connections with industry. Prerequisites: one of
LINGUIST 180,
CS 124,
CS 224N,
CS224S, or
CS221; and logical/semantics such as
LINGUIST 130A or B,
CS 157, or
PHIL150
Terms: Spr

Units: 34

Grading: Letter or Credit/No Credit
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
...
more instructors for LINGUIST 188 »
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
;
Huang, B. (TA)
;
Monroe, W. (TA)
;
Pai, S. (TA)
;
li, J. (TA)
LINGUIST 288: Natural Language Understanding (CS 224U, LINGUIST 188)
Projectoriented class focused on developing systems and algorithms for robust machine understanding of human language. Draws on theoretical concepts from linguistics, natural language processing, and machine learning. Topics include lexical semantics, distributed representations of meaning, relation extraction, semantic parsing, sentiment analysis, and dialogue agents, with special lectures on developing projects, presenting research results, and making connections with industry. Prerequisites: one of
LINGUIST 180,
CS 124,
CS 224N,
CS224S, or
CS221; and logical/semantics such as
LINGUIST 130A or B,
CS 157, or
PHIL150
Terms: Spr

Units: 34

Grading: Letter or Credit/No Credit
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
...
more instructors for LINGUIST 288 »
Instructors:
MacCartney, B. (PI)
;
Potts, C. (PI)
;
Caswell, I. (TA)
;
Huang, B. (TA)
;
Monroe, W. (TA)
;
Pai, S. (TA)
;
li, J. (TA)
MATH 162: Philosophy of Mathematics (PHIL 162, PHIL 262)
(Graduate students register for
PHIL 262.) General survey of the philosophy of mathematics, focusing on epistemological issues. Includes survey of some basic concepts (proof, axiom, definition, number, set); mindbending theorems about the limits of our current mathematical knowledge, such as Gödel's Incompleteness Theorems, and the independence of the continuum hypothesis from the current axioms of set theory; major philosophical accounts of mathematics: Logicism, Intuitionism, Hilbert's program, Quine's empiricism, Field's program, Structuralism; concluding with a discussion of Eugene Wigner's `The Unreasonable Effectiveness of Mathematics in the Natural Sciences'. Students won't be expected to prove theorems or complete mathematical exercises. However, includes some material of a technical nature. Prerequisite: PHIL150 or consent of instructor.
Terms: Aut

Units: 4

UG Reqs: GER:DBMath

Grading: Letter or Credit/No Credit
Instructors:
Donaldson, T. (PI)
PHIL 23B: Truth and Paradox
Philosophical investigation of the concept of truth is often divided along two dimensions: investigation of the nature of truth and investigation of the semantics of truth claims. This tutorial will focus on the second kind of concern. One key impetus for a philosophical interest in the semantics and definability of truth is the challenge posed by semantic paradoxes such as the Liar paradox and Curry¿s paradox. Despite each having the initial appearance of a parlor trick, philosophers and logicians have come to appreciate the deep implications of these paradoxes. The main goal of this tutorial is to gain an appreciation of the philosophical issues  both with respect to formal and natural languages ¿ which arise from consideration of the paradoxes. To this end, we will study some of the classic contributions to this area including Tarski¿s famous result that, in an important sense, the semantic paradoxes render truth indefinable, and Kripke¿s much later attempt to provide a definition of truth in the face of Tarski¿s limitative result. Further topics include the debate between paracomplete and paraconsistent solutions to the semantic paradoxes (notably defended by, respectively, Field and Priest); the relationship between deflationism about truth and the paradoxes; and the notion of ¿revenge problems¿ (roughly, the claim that any solution to the paradoxes can be used to construct a further paradox).nThe tutorial will avoid excessive technical discussions, but will aim to engender appreciation for some philosophical interesting technical points and will assume a logic background of PHIL150 level.
Terms: not given this year

Units: 2

Grading: Satisfactory/No Credit
PHIL 150: Mathematical Logic (PHIL 250)
An introduction to the concepts and techniques used in mathematical logic, focusing on propositional, modal, and predicate logic. Highlights connections with philosophy, mathematics, computer science, linguistics, and neighboring fields.
Terms: Aut

Units: 4

UG Reqs: GER:DBMath, WAYFR

Grading: Letter or Credit/No Credit
Instructors:
Bassett, R. (PI)
;
Icard, T. (PI)
;
Mierzewski, C. (PI)
...
more instructors for PHIL 150 »
Instructors:
Bassett, R. (PI)
;
Icard, T. (PI)
;
Mierzewski, C. (PI)
;
Bassett, R. (TA)
;
Islami, A. (TA)
;
Mierzewski, C. (TA)
PHIL 150E: Logic in Action: A New Introduction to Logic
A new introduction to logic, covering propositional, modal, and firstorder logic, with special attention to major applications in describing information and informationdriven action. Highlights connections with philosophy, mathematics, computer science, linguistics, and neighboring fields. Based on the open source course 'Logic in Action,' available online at
http://www.logicinaction.org/.nFulfills the undergraduate philosophy logic requirement.
Terms: not given this year

Units: 4

UG Reqs: GER:DBMath, WAYFR

Grading: Letter or Credit/No Credit
PHIL 162: Philosophy of Mathematics (MATH 162, PHIL 262)
(Graduate students register for
PHIL 262.) General survey of the philosophy of mathematics, focusing on epistemological issues. Includes survey of some basic concepts (proof, axiom, definition, number, set); mindbending theorems about the limits of our current mathematical knowledge, such as Gödel's Incompleteness Theorems, and the independence of the continuum hypothesis from the current axioms of set theory; major philosophical accounts of mathematics: Logicism, Intuitionism, Hilbert's program, Quine's empiricism, Field's program, Structuralism; concluding with a discussion of Eugene Wigner's `The Unreasonable Effectiveness of Mathematics in the Natural Sciences'. Students won't be expected to prove theorems or complete mathematical exercises. However, includes some material of a technical nature. Prerequisite: PHIL150 or consent of instructor.
Terms: Aut

Units: 4

UG Reqs: GER:DBMath

Grading: Letter or Credit/No Credit
Instructors:
Donaldson, T. (PI)
PHIL 262: Philosophy of Mathematics (MATH 162, PHIL 162)
(Graduate students register for
PHIL 262.) General survey of the philosophy of mathematics, focusing on epistemological issues. Includes survey of some basic concepts (proof, axiom, definition, number, set); mindbending theorems about the limits of our current mathematical knowledge, such as Gödel's Incompleteness Theorems, and the independence of the continuum hypothesis from the current axioms of set theory; major philosophical accounts of mathematics: Logicism, Intuitionism, Hilbert's program, Quine's empiricism, Field's program, Structuralism; concluding with a discussion of Eugene Wigner's `The Unreasonable Effectiveness of Mathematics in the Natural Sciences'. Students won't be expected to prove theorems or complete mathematical exercises. However, includes some material of a technical nature. Prerequisite: PHIL150 or consent of instructor.
Terms: Aut

Units: 4

Grading: Letter or Credit/No Credit
Instructors:
Donaldson, T. (PI)
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