Randomized algorithms
GeoCast—geographic addressing and routing
MobiCom '97 Proceedings of the 3rd annual ACM/IEEE international conference on Mobile computing and networking
Fundamental control algorithms in mobile networks
Proceedings of the eleventh annual ACM symposium on Parallel algorithms and architectures
The Cricket location-support system
MobiCom '00 Proceedings of the 6th annual international conference on Mobile computing and networking
Sending messages to mobile users in disconnected ad-hoc wireless networks
MobiCom '00 Proceedings of the 6th annual international conference on Mobile computing and networking
Time, clocks, and the ordering of events in a distributed system
Communications of the ACM
An Efficient Communication Strategy for Ad-hoc Mobile Networks
DISC '01 Proceedings of the 15th International Conference on Distributed Computing
ACM SIGCOMM Computer Communication Review
An adaptive mesh-based protocol for geocast routing
Journal of Parallel and Distributed Computing - Special issue on Routing in mobile and wireless ad hoc networks
Roadmap-Based Flocking for Complex Environments
PG '02 Proceedings of the 10th Pacific Conference on Computer Graphics and Applications
Random Walk for Self-Stabilizing Group Communication in Ad-Hoc Networks
SRDS '02 Proceedings of the 21st IEEE Symposium on Reliable Distributed Systems
Geometric ad-hoc routing: of theory and practice
Proceedings of the twenty-second annual symposium on Principles of distributed computing
Brief announcement: virtual mobile nodes for mobile ad hoc networks
Proceedings of the twenty-third annual ACM symposium on Principles of distributed computing
Robust Active Super Tier Systems
SWSTE '05 Proceedings of the IEEE International Conference on Software - Science, Technology & Engineering
Organizing a global coordinate system from local information on an ad hoc sensor network
IPSN'03 Proceedings of the 2nd international conference on Information processing in sensor networks
The virtual node layer: a programming abstraction for wireless sensor networks
ACM SIGBED Review - Special issue on the workshop on wireless sensor network architecture (April-2007)
Self-stabilizing and self-orgenizing mobile networks
Proceedings of the fifth international workshop on Foundations of mobile computing
Tutorial Abstract Virtual Infrastructure
SSS '08 Proceedings of the 10th International Symposium on Stabilization, Safety, and Security of Distributed Systems
Secret swarm unit: reactive k-secret sharing
INDOCRYPT'07 Proceedings of the cryptology 8th international conference on Progress in cryptology
Allerton'09 Proceedings of the 47th annual Allerton conference on Communication, control, and computing
Chameleon-MAC: adaptive and self-algorithms for media access control in mobile ad hoc networks
SSS'10 Proceedings of the 12th international conference on Stabilization, safety, and security of distributed systems
Infrastructureless Spatial Storage Algorithms
ACM Transactions on Autonomous and Adaptive Systems (TAAS)
Hovering data clouds: a decentralized and self-organizing information system
IWSOS'06/EuroNGI'06 Proceedings of the First international conference, and Proceedings of the Third international conference on New Trends in Network Architectures and Services conference on Self-Organising Systems
Ad Hoc Networks
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This paper presents a new abstraction for virtual infrastructure in mobile ad hoc networks. An Autonomous Virtual Mobile Node (AVMN) is a robust and reliable entity that is designed to cope with the inherent difficulties caused by processors arriving, leaving, and moving according to their own agendas, as well as with failures and energy limitations. There are many types of applications that may make use of the AVMN infrastructure: tracking, supporting mobile users, or searching for energy sources.The AVMN extends the focal point abstraction in [9] and the virtual mobile node abstraction in [10]. The new abstraction is that of a virtual general-purpose computing entity, an automaton that can make autonomous on-line decisions concerning its own movement. We describe a self-stabilizing implementation of this new abstraction that is resilient to the chaotic behavior of the physical processors and provides automatic recovery from any corrupted state of the system.