Paper Info
Title
Efficient context free parsing of multi-agent activities for team and plan recognition
Abstract
We extend a recent formalization of multi-agent plan recognition (MAPR), to accommodate compact multi-agent plan libraries in the form of context free grammars (CFG), incomplete plan executions, and uncertainty in the observation trace. Some existing approaches for single agent plan recognition cast it as a problem of parsing a single agent activity trace. With the help of our multi-agent CFG, we do the same for MAPR. However, known hardness results from multi-agent plan recognition constrain our options for efficient parsing, but we claim that static teams are a necessary (though not sufficient) condition for polynomial parsing. The necessity is supported by the fact that MAPR becomes NP-complete when teams can change dynamically. For sufficiency, we impose additional restrictions and claim that if the social structure among the agents is of certain types, then polynomial time parsing is possible.
Year
DOI
Venue
2012
10.5555/2343896.2344051
AAMAS
Keywords
Field
DocType
efficient parsing,efficient context,observation trace,free parsing,multi-agent cfg,polynomial parsing,polynomial time parsing,incomplete plan execution,multi-agent activity,multi-agent plan recognition,compact multi-agent plan library,single agent plan recognition,single agent activity trace
Context-free grammar,Polynomial,Computer science,Artificial intelligence,Parsing,Plan recognition,Time complexity
Conference
ISBN
Citations 
PageRank 
0-9817381-3-3
0
0.34
References 
Authors
4
3
Name
Order
Citations
PageRank
Bikramjit Banerjee128432.63
Jeremy Lyle2355.39
Landon Kraemer38910.03