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  <title><![CDATA[Ph.D. Defense by Boyang "Albert" Li]]></title>
  <body><![CDATA[<p>Ph.D. Dissertation Defense Announcement<br /><br />Title: <strong>Learning Knowledge to Support Domain-Independent Narrative Intelligence</strong><br /><br /><strong>Boyang "Albert" Li</strong><br />School of Interactive Computing<br />College of Computing<br />Georgia Institute of Technology<br /><br />Date: Friday,&nbsp;November 14, 2014<br />Time: 2-4pm EST<br />Location:&nbsp;TSRB 223<br /><br />Committee:<br />Dr. Mark O. Riedl (Advisor; School of Interactive Computing, Georgia Institute of Technology)<br />Dr. Jacob Eisenstein (School of Interactive Computing, Georgia Institute of Technology)<br />Dr. Ashok Goel (School of Interactive Computing, Georgia Institute of Technology)<br />Dr. Brian Magerko (School of Literature, Media, and Communication, Georgia Institute of Technology)<br />Dr. Stacy Marsella (College of Computer and Information Science, Northeastern University)<br /><br /><strong>Abstract:</strong><br />Narrative Intelligence is the ability to craft, tell and understand narratives. It has been proposed as a central component of machines aiming to understand human activities or to communicate effectively with humans. However, most existing systems purported to demonstrate narrative intelligence rely on manually authored knowledge structures that require extensive expert labor. These systems are constrained to operate in a few domains where knowledge has been provided.<br /><br />This dissertation investigates the learning of knowledge structures to support Narrative Intelligence in any domain. I propose a system that, from an input corpus of simple exemplar stories, learns complex knowledge structures that subsequently enable the creation, telling, and understanding of stories. The knowledge representation balances the complexity of learning and the richness of narrative applications, so that we can (1) learn the knowledge robustly in the presence of noise, (2) generate a large variety of highly coherent stories, (3) tell them in recognizably different narration styles and (4) understand stories efficiently. The accuracy and effectiveness of the system have been verified by a series of user studies and computational experiments.&nbsp;<br /><br />As a result, the system is able to demonstrate Narrative Intelligence in any domain where we can collect a small number of exemplar stories. This dissertation is the first step toward scaling computational narrative intelligence to meet the challenges of the real world.</p>]]></body>
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