Heavy traffic load in current LTE networks calls for effective radio resource allocation methods and tools for performance evaluation. In this work, we provide an analytical framework for LTE resource allocation in terms of queuing theory. We consider a multiservice queuing system with a finite amount of resources of several types, and allow the customers occupy a random amount of resources upon their arrival. Random resource requirements lead to more accurate performance evaluation compared to conventional multiservice models. For the considered model, we prove that the stationary probability distribution has a multiplicative form. Our findings are illustrated with a numerical example. © 2015 IEEE
The article presents an overview of the resource queuing systems used for modeling of a wide class o...
One of the main problems in LTE networks is the distribution of a limited number of radio resources ...
The paper considers a queuing system with limited resources, random requirements, and signals. Each ...
Abstract: We analyze a multiserver queuing system, in which customers require a server and a certain...
In the paper, a wireless network is modelled in terms of multiserver queuing system with limited res...
In this paper, a queueing system with multicast service, random resource requirements and general pr...
The key challenge for modern wireless networks is frequency resource limits that encourage a shift t...
The key challenge for modern wireless networks is frequency resource limits that encourage a shift t...
Prospective 5G New Radio (NR) systems offer unprecedented capacity boost by the ultradense deploymen...
Modern mobile internet networks are becoming heavier and denser. Also it is not regularly planned, a...
One of the ways to enable smooth coexistence of ultra reliable low latency communication (URRLC) and...
Queuing systems with limited resources, in which customers require a device and a certain amount of ...
In the paper, we analyse a multiserver queuing system with discrete limited resources and random res...
According to analytics, the global mobile date traffic will grow three times faster than fixed traff...
In the paper, M2M traffic characteristics in LTE mobile network are investigated. A specific resourc...
The article presents an overview of the resource queuing systems used for modeling of a wide class o...
One of the main problems in LTE networks is the distribution of a limited number of radio resources ...
The paper considers a queuing system with limited resources, random requirements, and signals. Each ...
Abstract: We analyze a multiserver queuing system, in which customers require a server and a certain...
In the paper, a wireless network is modelled in terms of multiserver queuing system with limited res...
In this paper, a queueing system with multicast service, random resource requirements and general pr...
The key challenge for modern wireless networks is frequency resource limits that encourage a shift t...
The key challenge for modern wireless networks is frequency resource limits that encourage a shift t...
Prospective 5G New Radio (NR) systems offer unprecedented capacity boost by the ultradense deploymen...
Modern mobile internet networks are becoming heavier and denser. Also it is not regularly planned, a...
One of the ways to enable smooth coexistence of ultra reliable low latency communication (URRLC) and...
Queuing systems with limited resources, in which customers require a device and a certain amount of ...
In the paper, we analyse a multiserver queuing system with discrete limited resources and random res...
According to analytics, the global mobile date traffic will grow three times faster than fixed traff...
In the paper, M2M traffic characteristics in LTE mobile network are investigated. A specific resourc...
The article presents an overview of the resource queuing systems used for modeling of a wide class o...
One of the main problems in LTE networks is the distribution of a limited number of radio resources ...
The paper considers a queuing system with limited resources, random requirements, and signals. Each ...