Paper Info
Title
An Architecture for Persistent Reactive Behavior
Abstract
In this paper we describe ICARUS, an integrated architecture for intelligent physical agents. The framework supports long-term memories for hierarchical concepts and skills, along with mechanisms for recognizing concepts that hold in the environment, determining which skills are applicable, and selecting for execution the skill with the highest expected value. We illustrate these processes with examples from the domain of in-city driving, and we report experimental studies on a package-delivery task that examine ICARUS' ability to combine reactive behavior with persistence over time. We conclude with a discussion of related work on agent architectures and our plans for extending the system.
Year
DOI
Venue
2004
10.1109/AAMAS.2004.59
AAMAS
Keywords
Field
DocType
persistent reactive behavior,long-term memory,highest expected value,hierarchical concept,reactive behavior,intelligent physical agent,experimental study,integrated architecture,package-delivery task,in-city driving,agent architecture,artificial intelligence,intelligent agent,intelligent systems,long term memory,computer architecture,expected value
ICARUS,Permission,Architecture,Intelligent agent,Intelligent decision support system,Computer science,Physical agents,Human–computer interaction,Artificial intelligence,Integrated architecture,Distributed computing
Conference
ISBN
Citations 
PageRank 
1-58113-864-4
16
1.08
References 
Authors
13
5
Name
Order
Citations
PageRank
Dongkyu Choi118113.69
Matt Kaufman2161.08
Pat Langley364711307.64
Negin Nejati4945.95
Daniel G. Shapiro518788.21