Trustable task processing systems
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Reference:
- Alyssa Glass, Deborah L. McGuinness, Paulo Pinheiro da Silva, Michael Wolverton. Trustable Task Processing Systems , Kunstliche Intelligenz (2) pp.12-18, 2008
bibtex
@article { glass2008trustable ,
author = "Alyssa Glass, Deborah L. McGuinness, Paulo Pinheiro da Silva, Michael Wolverton",
editor = "T. Roth-Berghofer, M.M. Richter",
journal = "Kunstliche Intelligenz",
note = "Special Issue on Explanation",
number = "2",
pages = "12-18",
publisher = "Heft",
title = "Trustable Task Processing Systems",
year = "2008",
}
abstract: As personal assistant software matures and assumes more autonomous control of user activities, it becomes more critical that this software can tell the user why it is doing what it is doing, and instill trust in the user that its task knowledge reflects standard practice and is being appropriately applied. Our research focuses broadly on providing infrastructure that may be used to increase trust in intelligent agents. In this paper, we will report on a study we designed to identify factors that influence trust in intelligent adaptive agents. We will then introduce our work on explaining adaptive task processing agents as motivated by the results of the trust study. We will introduce our task execution explanation component and provide examples in the context of a particular adaptive agent named CALO. Key features include (1) an architecture designed for re-use among different task execution systems; (2) a set of introspective predicates and a software wrapper that extracts explanation-relevant information from a task execution system; (3) a version of the Inference Web explainer for generating formal justifications of task processing and converting them to user-friendly explanations; and (4) a unified framework for explaining results from task execution, learning, and deductive reasoning.
download:
- paper: (http://www.kuenstliche-intelligenz.de/fileadmin/template/main/archiv/pdf/ki2008-02_page12_web_teaser.pdf)
- slides:
| Abstract | As personal assistant software matures and … As personal assistant software matures and assumes more autonomous control of user activities, it becomes more critical that this software can tell the user why it is doing what it is doing, and instill trust in the user that its task knowledge reflects standard practice and is being appropriately applied. Our research focuses broadly on providing infrastructure that may be used to increase trust in intelligent agents. In this paper, we will report on a study we designed to identify factors that influence trust in intelligent adaptive agents. We will then introduce our work on explaining adaptive task processing agents as motivated by the results of the trust study. We will introduce our task execution explanation component and provide examples in the context of a particular adaptive agent named CALO. Key features include (1) an architecture designed for re-use among different task execution systems; (2) a set of introspective predicates and a software wrapper that extracts explanation-relevant information from a task execution system; (3) a version of the Inference Web explainer for generating formal justifications of task processing and converting them to user-friendly explanations; and (4) a unified framework for explaining results from task execution, learning, and deductive reasoning. cution, learning, and deductive reasoning. |
| Author | Alyssa Glass +, Deborah L. McGuinness +, Paulo Pinheiro da Silva +, and Michael Wolverton + |
| Bibtype | article + |
| Editor | T. Roth-Berghofer +, and M.M. Richter + |
| Journal | Kunstliche Intelligenz + |
| Key | glass2008trustable + |
| Month | January + |
| Note | Special Issue on Explanation + |
| Number | 2 + |
| Pages | 12-18 + |
| Paper url | http://www.kuenstliche-intelligenz.de/fileadmin/template/main/archiv/pdf/ki2008-02_page12_web_teaser.pdf + |
| Publisher | Heft + |
| Relation | Inference web + |
| Tag | Computer science + |
| Title | Trustable Task Processing Systems + |
| Tr id | TW-2008-12 +, and KSL-2008-01 + |
| Year | 2008 + |
