In this paper we propose a method for calculating steady-state probability distributions of the single-channel closed queueing systems with arbitrary distributions of customer generation times and service times. The approach based on the use of fictitious phases and hyperexponential approximations with parameters of the paradoxical and complex type by the method of moments. We defined conditions for the variation coefficients of the gamma distributions and Weibull distributions, for which the best accuracy of calculating the steady-state probabilities is achieved in comparison with the results of simulation modeling
Queueing systems with Poisson arrival processes and Hypo- or Hyper-exponential service time distribu...
The queueing system of GI/GI/1/r type with phase type distribution functions for input flow (non-Poi...
A time non homogeneous diffusion approximation to a single server-single queue service system is obt...
In this paper we propose a method for calculating steady-state probability distributions of the sing...
This article proposes an analysis of the results of the application of hyperexponential approximatio...
In this paper, we propose a method for calculating steady-state probabilities of the G/G/1/m and M/G...
AbstractKeane, Hooghiemstra and Van de Ree have proposed a new numerical method for calculating stat...
International audienceWe propose a simple approximation to assess the steady-stateprobabilities of t...
This paper proposes a method for determining the steady-state characteristics of two-channel closed ...
We propose a method for determining the characteristics of a single-channel closed queueing system w...
We propose a method for determining the steady-state characteristics of a multichannel closed queuei...
Abstract. This paper draws attention to the risk of rounding error in the numerical evaluation of st...
ABSTRACT: Two routing rules for a queuing system of two stations are considered as alternative model...
Abstract: Many problems in management science and telecommunications can be solved by the analysis o...
We consider an M/PH/1 queue with balking based on the workload. An arriving customer joins the queue...
Queueing systems with Poisson arrival processes and Hypo- or Hyper-exponential service time distribu...
The queueing system of GI/GI/1/r type with phase type distribution functions for input flow (non-Poi...
A time non homogeneous diffusion approximation to a single server-single queue service system is obt...
In this paper we propose a method for calculating steady-state probability distributions of the sing...
This article proposes an analysis of the results of the application of hyperexponential approximatio...
In this paper, we propose a method for calculating steady-state probabilities of the G/G/1/m and M/G...
AbstractKeane, Hooghiemstra and Van de Ree have proposed a new numerical method for calculating stat...
International audienceWe propose a simple approximation to assess the steady-stateprobabilities of t...
This paper proposes a method for determining the steady-state characteristics of two-channel closed ...
We propose a method for determining the characteristics of a single-channel closed queueing system w...
We propose a method for determining the steady-state characteristics of a multichannel closed queuei...
Abstract. This paper draws attention to the risk of rounding error in the numerical evaluation of st...
ABSTRACT: Two routing rules for a queuing system of two stations are considered as alternative model...
Abstract: Many problems in management science and telecommunications can be solved by the analysis o...
We consider an M/PH/1 queue with balking based on the workload. An arriving customer joins the queue...
Queueing systems with Poisson arrival processes and Hypo- or Hyper-exponential service time distribu...
The queueing system of GI/GI/1/r type with phase type distribution functions for input flow (non-Poi...
A time non homogeneous diffusion approximation to a single server-single queue service system is obt...