In this paper, we study the performance of the Multiple Fractional Channel Reservation (MFCR) policy, which is a bandwidth reservation policy that allows the reservation of real (not integer) number of channels in order to favor calls of high channel (bandwidth) requirements. We consider a link of fixed capacity that accommodates Poisson arriving calls of different service-classes with different bandwidth-per-call requirements. Calls compete for the available bandwidth under the MFCR policy. To determine call blocking probabilities, we propose approximate but recursive formulas based on the notion of reserve transition rates. The accuracy of the proposed method is verified through simulation
We propose a new multirate teletraffic loss model for the calculation of time and call congestion pr...
We consider a two-link system that accommodates Poisson arriving calls from different service-classe...
AbstractIn this paper, we consider a Call Admission Control (CAC) protocol which meets the challenge...
In this paper, we study the performance of the Multiple Fractional Channel Reservation (MFCR) policy...
The authors propose two multirate teletraffic loss models in a two‐link system that accommodates Poi...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
In this paper, we propose a multirate teletraffic loss model of a single link with certain bandwidth...
We consider a reference cell of fixed capacity in a wireless cellular network while concentrating on...
We consider a two-link system that accommodates Poisson arriving calls from different service-classe...
We consider a two-link communication system with restricted accessibility that services Poisson arri...
We propose a probabilistic bandwidth sharing policy, based on the threshold (TH) policy, for a singl...
In this paper we consider a link, characterized by specific capacity, that services multi-rate random...
CDMA-based technologies deserve assiduous analysis and evaluation. We study the performance, at call...
We propose a new multirate teletraffic loss model for the calculation of time and call congestion pr...
We consider a two-link system that accommodates Poisson arriving calls from different service-classe...
AbstractIn this paper, we consider a Call Admission Control (CAC) protocol which meets the challenge...
In this paper, we study the performance of the Multiple Fractional Channel Reservation (MFCR) policy...
The authors propose two multirate teletraffic loss models in a two‐link system that accommodates Poi...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
This paper proposes multirate teletraffic loss models of a link that accommodates different service-...
In this paper, we propose a multirate teletraffic loss model of a single link with certain bandwidth...
We consider a reference cell of fixed capacity in a wireless cellular network while concentrating on...
We consider a two-link system that accommodates Poisson arriving calls from different service-classe...
We consider a two-link communication system with restricted accessibility that services Poisson arri...
We propose a probabilistic bandwidth sharing policy, based on the threshold (TH) policy, for a singl...
In this paper we consider a link, characterized by specific capacity, that services multi-rate random...
CDMA-based technologies deserve assiduous analysis and evaluation. We study the performance, at call...
We propose a new multirate teletraffic loss model for the calculation of time and call congestion pr...
We consider a two-link system that accommodates Poisson arriving calls from different service-classe...
AbstractIn this paper, we consider a Call Admission Control (CAC) protocol which meets the challenge...