We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates:(1) mobile agents,(2) wireless ad hoc multi-hop networks, and (3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
IEEE 2nd Symposium on Multi-Agent Security and Survivability, 2005., 2005
Designing decentralized software applications for a wireless network environment offers harsh cha... more Designing decentralized software applications for a wireless network environment offers harsh challenges to the software engineer. All of the usual difficulties associated with a distributed system are present, but are amplified by the inherent dynamics and uncertainty of the wireless network. This paper takes an agent-oriented software engineering perspective in considering how to design decentralized software systems for a mobile
IEEE 2nd Symposium on Multi-Agent Security and Survivability, 2005., 2005
Wireless mobile ad-hoc networks (MANETS) of personal digital assistants (PDAs) are a growing fiel... more Wireless mobile ad-hoc networks (MANETS) of personal digital assistants (PDAs) are a growing field of study due to potential applications in environments that lack a functioning communications infrastructure. Mobile computing platforms such as PDAs and tablet PCs offer software designers great challenges to the design of survivable software applications. One of these challenges pertains to limited power resources. Processor loads,
We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates:(1) mobile agents,(2) wireless ad hoc multi-hop networks, and (3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
PROCEEDINGS OF THE NATIONAL CONFERENCE ON ARTIFICIAL INTELLIGENCE, Jul 25, 2004
We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates: 1) mobile agents, 2) wireless ad hoc multi-hop networks, and 3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
This paper overviews the Philadelphia Area Urban Wireless Net- work Testbed (PA-UWNT) project and... more This paper overviews the Philadelphia Area Urban Wireless Net- work Testbed (PA-UWNT) project and several applications of ar- tificial intelligence therein. PA-UWNT is a research and develop- ment effort in mobile and ubiquitous computing, focusing on com- munication and collaboration between first responders and other emergency personnel. Support systems in these environments face a number of challenges such as a lack of in-place infrastructure, frequent network disruptions, and limited bandwidth and power. The Testbed, consisting of robust networked computing platforms along with access to public and private locations, enables the project to test, evaluate, and develop new approaches to effectively supporting users in these domains. In this work, agents that reason on network state and available services in conducting information dissemination and collection tasks are proposed and evaluated.
We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates:(1) mobile agents,(2) wireless ad hoc multi-hop networks, and (3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
IEEE 2nd Symposium on Multi-Agent Security and Survivability, 2005., 2005
Designing decentralized software applications for a wireless network environment offers harsh cha... more Designing decentralized software applications for a wireless network environment offers harsh challenges to the software engineer. All of the usual difficulties associated with a distributed system are present, but are amplified by the inherent dynamics and uncertainty of the wireless network. This paper takes an agent-oriented software engineering perspective in considering how to design decentralized software systems for a mobile
IEEE 2nd Symposium on Multi-Agent Security and Survivability, 2005., 2005
Wireless mobile ad-hoc networks (MANETS) of personal digital assistants (PDAs) are a growing fiel... more Wireless mobile ad-hoc networks (MANETS) of personal digital assistants (PDAs) are a growing field of study due to potential applications in environments that lack a functioning communications infrastructure. Mobile computing platforms such as PDAs and tablet PCs offer software designers great challenges to the design of survivable software applications. One of these challenges pertains to limited power resources. Processor loads,
We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates:(1) mobile agents,(2) wireless ad hoc multi-hop networks, and (3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
PROCEEDINGS OF THE NATIONAL CONFERENCE ON ARTIFICIAL INTELLIGENCE, Jul 25, 2004
We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drex... more We will demonstrate the Secure Wireless Agent Testbed (SWAT), a unique facility developed at Drexel University to study integration, networking and information assurance for next-generation wireless mobile agent systems. SWAT is an implemented system that fully integrates: 1) mobile agents, 2) wireless ad hoc multi-hop networks, and 3) security. The demonstration will show the functionality of a number of decentralized agent-based applications, including applications for authentication, collaboration, messaging, and ...
This paper overviews the Philadelphia Area Urban Wireless Net- work Testbed (PA-UWNT) project and... more This paper overviews the Philadelphia Area Urban Wireless Net- work Testbed (PA-UWNT) project and several applications of ar- tificial intelligence therein. PA-UWNT is a research and develop- ment effort in mobile and ubiquitous computing, focusing on com- munication and collaboration between first responders and other emergency personnel. Support systems in these environments face a number of challenges such as a lack of in-place infrastructure, frequent network disruptions, and limited bandwidth and power. The Testbed, consisting of robust networked computing platforms along with access to public and private locations, enables the project to test, evaluate, and develop new approaches to effectively supporting users in these domains. In this work, agents that reason on network state and available services in conducting information dissemination and collection tasks are proposed and evaluated.
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Papers by Andrew Mroczkowski