AbstractRecent advances in Multiagent Systems (MAS) and Epistemic Logic within Distributed Systems Theory, have used various combinatorial structures that model both the geometry of the systems and the Kripke model structure of models for the logic. Examining one of the simpler versions of these models, interpreted systems, and the related Kripke semantics of the logic S5n (an epistemic logic with n-agents), the similarities with the geometric/homotopy theoretic structure of groupoid atlases is striking. These latter objects arise in problems within algebraic K-theory, an area of algebra linked to the study of decomposition and normal form theorems in linear algebra. They have a natural well structured notion of path and constructions of pa...
www.cs.bham.ac.uk/f~arl,~mdrg Intelligent agents must update their knowledge base as they acquire ne...
This paper revisits the multi-agent epistemic logic presented in [10], where agents and sets of agen...
AbstractThe aim of this paper is to formalize the connection between two widely separated branches o...
AbstractRecent advances in Multiagent Systems (MAS) and Epistemic Logic within Distributed Systems T...
The standard semantics of multi-agent epistemic logic S5n is based on Kripke models whose accessibil...
AbstractBoth Kripke models and interpreted systems have been put forward as basic models of multi-ag...
The standard semantics of multi-agent epistemic logic S5 is based on Kripke models whose accessibili...
Despite the fact that epistemic connectives are sometimes interpreted in concrete structures defined...
Multi-agent systems operating in complex domains crucially require agents to interact with each othe...
Modal logic S5 is commonly viewed as an epistemic logic that captures the most basic properties of k...
In recent years, several authors have been investigating simplicial models, a model of epistemic log...
With the S5 multi-agent epistemic logic we consider the canonical maps from Krpke structures to know...
International audienceIn the field of knowledge representation and reasoning, despite the fact that ...
Combinatorial topology is used in distributed computing to model concurrency and asynchrony. The bas...
In this chapter we overview the main structures of epistemic and doxastic logic. We start by discuss...
www.cs.bham.ac.uk/f~arl,~mdrg Intelligent agents must update their knowledge base as they acquire ne...
This paper revisits the multi-agent epistemic logic presented in [10], where agents and sets of agen...
AbstractThe aim of this paper is to formalize the connection between two widely separated branches o...
AbstractRecent advances in Multiagent Systems (MAS) and Epistemic Logic within Distributed Systems T...
The standard semantics of multi-agent epistemic logic S5n is based on Kripke models whose accessibil...
AbstractBoth Kripke models and interpreted systems have been put forward as basic models of multi-ag...
The standard semantics of multi-agent epistemic logic S5 is based on Kripke models whose accessibili...
Despite the fact that epistemic connectives are sometimes interpreted in concrete structures defined...
Multi-agent systems operating in complex domains crucially require agents to interact with each othe...
Modal logic S5 is commonly viewed as an epistemic logic that captures the most basic properties of k...
In recent years, several authors have been investigating simplicial models, a model of epistemic log...
With the S5 multi-agent epistemic logic we consider the canonical maps from Krpke structures to know...
International audienceIn the field of knowledge representation and reasoning, despite the fact that ...
Combinatorial topology is used in distributed computing to model concurrency and asynchrony. The bas...
In this chapter we overview the main structures of epistemic and doxastic logic. We start by discuss...
www.cs.bham.ac.uk/f~arl,~mdrg Intelligent agents must update their knowledge base as they acquire ne...
This paper revisits the multi-agent epistemic logic presented in [10], where agents and sets of agen...
AbstractThe aim of this paper is to formalize the connection between two widely separated branches o...