This note develops a modelling approach for wireless networks driven byfluid traffic models. Introducing traffic sets that follow movement ofsubscribers, the wireless network with time-varying rates is transformedinto a stationary network at these traffic sets, which yields that thedistribution of calls over the cells of the network depends on the calllength distribution only through its mean. The result is extended to anetwork of infinite server queues with time-varying arrival rates.Telecommunications; Traffic; Stochastic processes
Abstract — High-speed wireless networks carrying multime-dia applications are becoming a reality and...
Unlike conventional mobile telephone networks, ad hoc mobile networks do not rely on fixed base-stati...
In this paper, we develop a performance modeling technique\ud for analyzing the time varying network...
This note develops a modelling approach for wireless networks driven by fluid traffic models. Introd...
This note develops a modelling approach for wireless networks driven byfluid traffic models. Introdu...
In wireless networks, the system capacity can vary unpre-dictably with time, due to mobility of user...
In the past decade, communication networks have experienced dramatic growth in all dimensions: size,...
AbstractWe present a fluid queue model driven by two independent finite state birth–death processes ...
The potential for exploiting rate variations to increase the capacity of wireless systems by opportu...
Different services based on different switching techniques in wireless networks leads to drastic cha...
We consider a fluid queue in discrete time with random service rate. Such a queue has been used in s...
This paper studies multiclass spatial birth-and-death (SBD) processes on a compact region of the Euc...
Abstract Recent research based on traffic measure-ments shows that Internet traffic flows have a fra...
We consider a fluid queue in discrete time with random service rate. Such a queue has been used in s...
Many wireless networks are subject to frequent changes in a combination of network topology, traffic...
Abstract — High-speed wireless networks carrying multime-dia applications are becoming a reality and...
Unlike conventional mobile telephone networks, ad hoc mobile networks do not rely on fixed base-stati...
In this paper, we develop a performance modeling technique\ud for analyzing the time varying network...
This note develops a modelling approach for wireless networks driven by fluid traffic models. Introd...
This note develops a modelling approach for wireless networks driven byfluid traffic models. Introdu...
In wireless networks, the system capacity can vary unpre-dictably with time, due to mobility of user...
In the past decade, communication networks have experienced dramatic growth in all dimensions: size,...
AbstractWe present a fluid queue model driven by two independent finite state birth–death processes ...
The potential for exploiting rate variations to increase the capacity of wireless systems by opportu...
Different services based on different switching techniques in wireless networks leads to drastic cha...
We consider a fluid queue in discrete time with random service rate. Such a queue has been used in s...
This paper studies multiclass spatial birth-and-death (SBD) processes on a compact region of the Euc...
Abstract Recent research based on traffic measure-ments shows that Internet traffic flows have a fra...
We consider a fluid queue in discrete time with random service rate. Such a queue has been used in s...
Many wireless networks are subject to frequent changes in a combination of network topology, traffic...
Abstract — High-speed wireless networks carrying multime-dia applications are becoming a reality and...
Unlike conventional mobile telephone networks, ad hoc mobile networks do not rely on fixed base-stati...
In this paper, we develop a performance modeling technique\ud for analyzing the time varying network...