AbstractWe review and extend some recent work that uses sheaf theory to provide a semantic foundation for distributed concurrent systems. A sheaf can be thought of as a system of observations on a topological space, with the key property that consistent local observations can be uniquely pasted together to provide a global observation. We suggest that sheaf theory can provide a framework for the semantics of distributed concurrent systems by exploring the relationships between sheaves and basic models of concurrent processes, particularly labelled transition systems and algebraic specifications of classes and objects
Abstract A categorical framework for modeling and analyzing systems in a broad sense is proposed. T...
In the seminal paper [2] Joyal, Winskel and Nielsen offered a general categor-ical notion of bisimul...
AbstractWe propose orthomodular posets, algebraic models of quantum logic, as a formal tool in concu...
AbstractWe review and extend some recent work that uses sheaf theory to provide a semantic foundatio...
: This paper uses concepts from sheaf theory to explicate phenomena in concurrent systems, including...
In this paper we present an overview of results that show that states, transitions and behavior of c...
In this paper we show that states, transitions and behavior of concurrent systems can often be model...
The goal of the present article is to demonstrate a mathematical modeling for distributed applicatio...
In this paper we show that states, transitions and behavior of concurrent systems can often be model...
In this paper we show that, given a family of interacting systems, many notions which are important...
We relate sheaf and trace models of concurrency for an interacting community of objects with a discr...
AbstractIn this paper we show that states, transitions and behavior of concurrent systems can often ...
This paper introduces the notion of event space, a physically motivated mathematical model of distri...
We propose an alternative characterisation of object-based distributed systems in terms of algebraic...
Sheaf theory provides a means of discussing many different kinds of geometric objects in respect of ...
Abstract A categorical framework for modeling and analyzing systems in a broad sense is proposed. T...
In the seminal paper [2] Joyal, Winskel and Nielsen offered a general categor-ical notion of bisimul...
AbstractWe propose orthomodular posets, algebraic models of quantum logic, as a formal tool in concu...
AbstractWe review and extend some recent work that uses sheaf theory to provide a semantic foundatio...
: This paper uses concepts from sheaf theory to explicate phenomena in concurrent systems, including...
In this paper we present an overview of results that show that states, transitions and behavior of c...
In this paper we show that states, transitions and behavior of concurrent systems can often be model...
The goal of the present article is to demonstrate a mathematical modeling for distributed applicatio...
In this paper we show that states, transitions and behavior of concurrent systems can often be model...
In this paper we show that, given a family of interacting systems, many notions which are important...
We relate sheaf and trace models of concurrency for an interacting community of objects with a discr...
AbstractIn this paper we show that states, transitions and behavior of concurrent systems can often ...
This paper introduces the notion of event space, a physically motivated mathematical model of distri...
We propose an alternative characterisation of object-based distributed systems in terms of algebraic...
Sheaf theory provides a means of discussing many different kinds of geometric objects in respect of ...
Abstract A categorical framework for modeling and analyzing systems in a broad sense is proposed. T...
In the seminal paper [2] Joyal, Winskel and Nielsen offered a general categor-ical notion of bisimul...
AbstractWe propose orthomodular posets, algebraic models of quantum logic, as a formal tool in concu...