In this paper we study performance tradeoffs of fairness algorithms for ring networks with spatial bandwidth reuse, by using two measures: (i) the fairness cycle size as a complexity measure, and (ii) the Max-Min optimal fairness criterion as a throughput measure. The fairness cycle size is determined by the number of communication links involved in every instance of the fairness algorithm (several identical fairness algorithms can be executed concurrently on the same ring). The study compares three fairness algorithms with different cycle sizes: the Globalcycle algorithm (implemented in the Serial Storage Architecture - SSA) in which the cycle size is equal to the number N of links in the ring; the Variable-cycle algorithm in which i...
We compare the performance of three usual allocations, namely max-min fairness, proportional fairnes...
A slotted ring that allows simultaneous transmissions of messages by different users is considered. ...
new technology for high-speed backbone metropolitan area networks. A key performance objective of RP...
In this paper we study performance tradeoffs of fairness algorithms for ring networks with spatial b...
Ring networks are enjoying renewed interest as Storage Area Networks (SANs), i.e., networks for inte...
We consider a ring in which simultaneous transmission of messages by different stations is allowed, ...
Rings are often preferred technology for networks as ring networks can virtually create fully connec...
The Resilient Packet Ring (RPR) is a new metro technology; RPR shares SONET\u27s ability in providin...
We study fairness when receivers in a multicast network can not subscribe to fractional layers. This...
Ring Ingress Aggregated with Spatial Reuse (RIAS) has been proposed as a fairness model for Resilien...
International audiencePacket-based optical ring becomes the standard access medium in metropolitan n...
Abstract: Despite the rapid development of the resilient packet ring (RPR) technology, the available...
Ring aggregation networks are often employed by network carriers because of their efficiency and hig...
The advances in fiber optics technology provide large bandwidth and enable the support of a wide var...
Spatial Reuse can significantly increase the throughput of optical ring networks by allowing multipl...
We compare the performance of three usual allocations, namely max-min fairness, proportional fairnes...
A slotted ring that allows simultaneous transmissions of messages by different users is considered. ...
new technology for high-speed backbone metropolitan area networks. A key performance objective of RP...
In this paper we study performance tradeoffs of fairness algorithms for ring networks with spatial b...
Ring networks are enjoying renewed interest as Storage Area Networks (SANs), i.e., networks for inte...
We consider a ring in which simultaneous transmission of messages by different stations is allowed, ...
Rings are often preferred technology for networks as ring networks can virtually create fully connec...
The Resilient Packet Ring (RPR) is a new metro technology; RPR shares SONET\u27s ability in providin...
We study fairness when receivers in a multicast network can not subscribe to fractional layers. This...
Ring Ingress Aggregated with Spatial Reuse (RIAS) has been proposed as a fairness model for Resilien...
International audiencePacket-based optical ring becomes the standard access medium in metropolitan n...
Abstract: Despite the rapid development of the resilient packet ring (RPR) technology, the available...
Ring aggregation networks are often employed by network carriers because of their efficiency and hig...
The advances in fiber optics technology provide large bandwidth and enable the support of a wide var...
Spatial Reuse can significantly increase the throughput of optical ring networks by allowing multipl...
We compare the performance of three usual allocations, namely max-min fairness, proportional fairnes...
A slotted ring that allows simultaneous transmissions of messages by different users is considered. ...
new technology for high-speed backbone metropolitan area networks. A key performance objective of RP...