Abstract—We consider a multiclass multiplexer with support for multiple service classes and dedicated buffers for each service class. Under specific scheduling policies for sharing bandwidth among these classes, we seek the asymptotic (as the buffer size goes to infinity) tail of the buffer overflow probability for each dedicated buffer. We assume dependent arrival and service processes as is usually the case in models of bursty traffic. In the standard large deviations methodology, we provide a lower and a matching (up to first degree in the exponent) upper bound on the buffer overflow probabilities. We introduce a novel optimal control approach to address these problems. In particular, we relate the lower bound derivation to a determinist...
[[abstract]]©1999 Applied Probability Trust-A major design challenge of Asynchronous Transfer Mode (...
In this thesis, we study an important measure of network congestion: the queue length (buffer occupa...
We consider a single node which multiplexes a large number of traffic sources. We ask a simple quest...
Cover title.Includes bibliographical references (p. 34-37).Supported by a Presidential Young Investi...
Cover title.Includes bibliographical references (p. 33-35).Supported by a Presidential Young Investi...
Abstract: This paper considers Gaussian flows multiplexed in a queueing network, where the underlyin...
As a model for an ATM switch we consider the overflow frequency of a queue that is served at a const...
This paper considers Gaussian flows multiplexed in a queueing network. A single node being a useful ...
This paper considers Gaussian flows multiplexed in a queueing network, where the underlying correlat...
We obtain upper bounds on the probability of buffer overflow for an ATM multiplexer of L identical p...
We address the problem of efficient resource allocation and Quality of Service (QoS) provision in mo...
In this paper we consider the Generalized Processor Sharing (GPS) mechanism serving two traffic clas...
Traffic on high-speed networks is expected to be `bursty'. This has spurred interest in the que...
Abstract—We investigate the statistical multiplexing and admis-sion control for a partitioned buffer...
Abstract. This paper considers Gaussian flows multiplexed in a queueing network. A single node being...
[[abstract]]©1999 Applied Probability Trust-A major design challenge of Asynchronous Transfer Mode (...
In this thesis, we study an important measure of network congestion: the queue length (buffer occupa...
We consider a single node which multiplexes a large number of traffic sources. We ask a simple quest...
Cover title.Includes bibliographical references (p. 34-37).Supported by a Presidential Young Investi...
Cover title.Includes bibliographical references (p. 33-35).Supported by a Presidential Young Investi...
Abstract: This paper considers Gaussian flows multiplexed in a queueing network, where the underlyin...
As a model for an ATM switch we consider the overflow frequency of a queue that is served at a const...
This paper considers Gaussian flows multiplexed in a queueing network. A single node being a useful ...
This paper considers Gaussian flows multiplexed in a queueing network, where the underlying correlat...
We obtain upper bounds on the probability of buffer overflow for an ATM multiplexer of L identical p...
We address the problem of efficient resource allocation and Quality of Service (QoS) provision in mo...
In this paper we consider the Generalized Processor Sharing (GPS) mechanism serving two traffic clas...
Traffic on high-speed networks is expected to be `bursty'. This has spurred interest in the que...
Abstract—We investigate the statistical multiplexing and admis-sion control for a partitioned buffer...
Abstract. This paper considers Gaussian flows multiplexed in a queueing network. A single node being...
[[abstract]]©1999 Applied Probability Trust-A major design challenge of Asynchronous Transfer Mode (...
In this thesis, we study an important measure of network congestion: the queue length (buffer occupa...
We consider a single node which multiplexes a large number of traffic sources. We ask a simple quest...