This work presents an adaptive control approach for queue-based Bandwidth-on-Demand (BoD) procedures in geostationary satellite networks. In queue-based protocols, the controller objective is to drive the buffer queue length to a certain target queue length. The proposed protocol is based on the construction of a certain number of models (MRs) that represents a particular statistical network behavior in a way to obtain the above mentioned reference queue length. The reference queue length is computed as a weighted sum of the outputs of the different MRs. By varying on-line the target queue length a trade-off between efficient exploiting of bandwidth and reduction of queuing delay is achieved
Motivated by reservation-based multiple access protocols in satellite networks, we consider discrete...
Congestion control is a key issue in broadband networks, which is particularly hard in a geostationa...
Resource management is a key issue in broadband networks. The problem is even more complex in a Ge...
The purpose of this work is to provide an enhanced adaptive approach to classic queue-based Bandwidt...
Bandwidth-on-demand (BoD) access protocols address the problem of guaranteeing a high exploitation o...
In this paper, a control-based Bandwidth-on-Demand (BoD) scheme for geostationary (GEO) satellite ne...
This article deals with the problem of the design of a control-based demand-assignment algorithm for...
This work presents an innovative cross-layer approach to dynamic bandwidth allocation (BoD) in Satel...
The real-time control of multiple queues handling traffic of different nature is obtaining increasin...
Broadband communication via satellite systems finds applications in several contexts where other tec...
A control architecture for resource allocation in satellite networks is proposed, along with the spe...
In this paper, a control-theoretic DAMA (Demand Assignment Multiple Access) protocol for ATM-based g...
This paper deals with end-to-end resource management in geostationary (GEO) satellite networks. Band...
This paper focuses on the resource management procedures for a geostationary (GEO) satellite system....
Two control schemes, based on cross-layer adaptation and a hierarchical parametric optimization of t...
Motivated by reservation-based multiple access protocols in satellite networks, we consider discrete...
Congestion control is a key issue in broadband networks, which is particularly hard in a geostationa...
Resource management is a key issue in broadband networks. The problem is even more complex in a Ge...
The purpose of this work is to provide an enhanced adaptive approach to classic queue-based Bandwidt...
Bandwidth-on-demand (BoD) access protocols address the problem of guaranteeing a high exploitation o...
In this paper, a control-based Bandwidth-on-Demand (BoD) scheme for geostationary (GEO) satellite ne...
This article deals with the problem of the design of a control-based demand-assignment algorithm for...
This work presents an innovative cross-layer approach to dynamic bandwidth allocation (BoD) in Satel...
The real-time control of multiple queues handling traffic of different nature is obtaining increasin...
Broadband communication via satellite systems finds applications in several contexts where other tec...
A control architecture for resource allocation in satellite networks is proposed, along with the spe...
In this paper, a control-theoretic DAMA (Demand Assignment Multiple Access) protocol for ATM-based g...
This paper deals with end-to-end resource management in geostationary (GEO) satellite networks. Band...
This paper focuses on the resource management procedures for a geostationary (GEO) satellite system....
Two control schemes, based on cross-layer adaptation and a hierarchical parametric optimization of t...
Motivated by reservation-based multiple access protocols in satellite networks, we consider discrete...
Congestion control is a key issue in broadband networks, which is particularly hard in a geostationa...
Resource management is a key issue in broadband networks. The problem is even more complex in a Ge...