We present a new publish-subscribe middleware called REDS (REconfigurable Dispatching System) designed to tolerate dynamic reconfigurations of the dispatching infrastructure, like those occurring in scenarios characterized by fluid topologies as in mobile and peer-to-peer networks. We illustrate the modular architecture of REDS, which enables programmers to change the internal configuration of the middleware to suit the deployment scenario, focusing on the aspects that deals with dynamic reconfiguration of the dispatching network
The publish/subscribe paradigm is well known for its loosely-coupled and asynchronous communication ...
Next generation embedded systems will be composed of large numbers of heterogeneous devices. These w...
none4Ubiquitous Computing scenarios call for middleware support solutions able to cope with changes ...
We present a new publish-subscribe middleware called REDS (REconfigurable Dispatching System) design...
We present a new publish-subscribe middleware called REDS (REconfigurable Dispatching System) design...
Publish-subscribe middleware allows the components of a distributed application to subscribe for eve...
Content-based publish-subscribe is emerging as a communication paradigm able to meet the demands of ...
Abstract. Publish-subscribe middleware allows the components of a distributed application to subscri...
The publish-subscribe model provides strong decoupling among the components of a distributed applica...
Abstract. Mission-critical, distributed systems are often designed as a set of distributed, componen...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
In this paper we present GREEN a highly configurable and reconfigurable publish-subscribe middleware...
Distributed content-based publish-subscribe is emerging as a communication paradigm able to meet the...
The publish/subscribe paradigm is well known for its loosely-coupled and asynchronous communication ...
Next generation embedded systems will be composed of large numbers of heterogeneous devices. These w...
none4Ubiquitous Computing scenarios call for middleware support solutions able to cope with changes ...
We present a new publish-subscribe middleware called REDS (REconfigurable Dispatching System) design...
We present a new publish-subscribe middleware called REDS (REconfigurable Dispatching System) design...
Publish-subscribe middleware allows the components of a distributed application to subscribe for eve...
Content-based publish-subscribe is emerging as a communication paradigm able to meet the demands of ...
Abstract. Publish-subscribe middleware allows the components of a distributed application to subscri...
The publish-subscribe model provides strong decoupling among the components of a distributed applica...
Abstract. Mission-critical, distributed systems are often designed as a set of distributed, componen...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
Distributed content-based publish-subscribe middleware provides the decoupling, flexibility, express...
In this paper we present GREEN a highly configurable and reconfigurable publish-subscribe middleware...
Distributed content-based publish-subscribe is emerging as a communication paradigm able to meet the...
The publish/subscribe paradigm is well known for its loosely-coupled and asynchronous communication ...
Next generation embedded systems will be composed of large numbers of heterogeneous devices. These w...
none4Ubiquitous Computing scenarios call for middleware support solutions able to cope with changes ...