An automated auction in ATM network bandwidth
Market-based control
A market approach to operating system memory allocation
Market-based control
JRes: a resource accounting interface for Java
Proceedings of the 13th ACM SIGPLAN conference on Object-oriented programming, systems, languages, and applications
Active network vision and reality: lessions from a capsule-based system
Proceedings of the seventeenth ACM symposium on Operating systems principles
The Java Language Specification
The Java Language Specification
IWAN '99 Proceedings of the First International Working Conference on Active Networks
Policy Specification for Programmable Networks
IWAN '99 Proceedings of the First International Working Conference on Active Networks
RCANE: A Resource Controlled Framework for Active Network Services
IWAN '99 Proceedings of the First International Working Conference on Active Networks
An Economic Approach to Adaptive Resource Management
HOTOS '99 Proceedings of the The Seventh Workshop on Hot Topics in Operating Systems
An object-oriented framework for modular resource management
IWOOOS '96 Proceedings of the 5th International Workshop on Object Orientation in Operating Systems (IWOOOS '96)
Decentralized Trust Management
SP '96 Proceedings of the 1996 IEEE Symposium on Security and Privacy
Alien: a generalized computing model of active networks
Alien: a generalized computing model of active networks
Lottery scheduling: flexible proportional-share resource management
OSDI '94 Proceedings of the 1st USENIX conference on Operating Systems Design and Implementation
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The increased complexity of the service model relative to store-and-forward routers has made resource management one of the paramount concerns in active networking research and engineering. In this paper, we address two major challenges in scaling resource management to many-node active networks. The first is the use of market mechanisms and trading amongst nodes and programs with varying degrees of competition and cooperation to provide a scalable approach to managing active network resources. The second is the use of a trust-management architecture to ensure that the participants in the resource management marketplace have a policy-driven "rule of law" in which marketplace decisions can be made and relied upon. We have used lottery scheduling and the Keynote trust-management system for our implementation, for which we provide some initial performance indications.