Gray, R.; D. Kotz; G. Cybenko; and D. Rus. 2002. "Mobile Agents: Motivations and state of the art systems.", in Handbook of Agent Technology, J. Bradshaw (Ed.). AAAI/MIT Press. to appear.  Home/Search   Document Details and Download   Summary   Related Articles   Check

....process migration at kernel level. Gobelins provides thread migration on a Linux cluster, where threads are implemented as processes. 3 III. DESIGNING MOBILE AGENT SYSTEMS Our designs are inspired by the following observations. First, computation mobility in the form of mobile agents [37] 38] [39], or thread migration [40] is essential to good performance as it exploits data locality. Second, shared variable programming is at a higher level and easier to use than message passing. Third, DSM systems as being used today suffer from false sharing (in page based DSM systems) and memory ....

R. S. Gray, D. Kotz, G. Cybenko, and D. Rus, "Mobile agents: Motivations and state-of-the-art systems," Dartmouth College, Hanover, N.H., Tech. Rep. TR2000-365, Apr. 2000.

....of execution on shared memory multiprocessor architectures with weak memory models, such as the SMP Alpha systems. More radical approaches include adding di erent categories of classes to Java including monitors [22] e.g. 5] Gray et al. present a very complete survey of mobile agent systems [20] categorized by the programming languages they support. Agent systems supporting multiple programming languages include: Ara, D Agents, and Tacoma. Java based systems include Aglets [26] Concordia, Jumping Beans, and Voyager. Other systems supporting a non Java single programming language ....

R. Gray, D. Kotz, G. Cybenko, and D. Rus. Mobile agents: Motivations and state-of-the-art systems. Technical report, Darmouth College, April

....with agents, such as autonomy and adaptivity. Mobile agents are used to move computation to more attractive network locations, often to avoid the use of unreliable or low bandwidth network links. A more extensive discussion of mobile agents and the rationale behind their use can be found in (Gray, 2000). In the testbed, mobile agents are used for three purposes. First, the active messaging system is implemented on top of the mobile agent system. Each message is wrapped inside a mobile agent, which carries the message through the network. Although a production system would be implemented much ....

Robert S. Gray, George Cybenko, David Kotz and Daniela Rus. "Mobile Agents: Motivations and State-of-the-Art Systems." In Jeffrey M. Bradshaw, editor, Handbook of Agent Technology, AAAI/MIT Press, 2000. In press.

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Gray, R.; D. Kotz; G. Cybenko; and D. Rus. 2002. "Mobile Agents: Motivations and state of the art systems.", in Handbook of Agent Technology, J. Bradshaw (Ed.). AAAI/MIT Press. to appear.

No context found.

R. Gray, D. Kotz, G. Cybenko, D. Rus, Mobile Agents: Motivations and State of the Art Systems, in: J. Bradshaw (Ed.), Handbook of Agent Technology, AAAI/MIT Press, Boston, 2004, in press.

No context found.

R. Gray, D. Kotz, G. Cybenko, and D. Rus, Mobile Agents: Motivations and state of the art systems, in: Jeffrey Bradshaw (Ed.), Handbook of Agent Technology, AAAI/MIT Press, Boston, 2002, in press.

No context found.

R. Gray, G. Cybenko, D. Kotz, and D. Rus. Mobile agents: Motivations and state-of-the-art systems. In J. Bradshaw, editor, Handbook of Agent Technology. AAAI/MIT Press, 2000.

No context found.

R. S. Gray, D. Kotz, G. Cybenko, and D. Rus. Mobile agents: Motivations and state-of-the-art systems. Technical Report TR2000-365, Dartmouth College, Hanover, NH, Apr. 2000.

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