Add to ORKGAbstract: Service systems such as call centers and hospital emergency rooms typically have strongly time-varying arrival rates. Thus, a nonhomogeneous Poisson process (NHPP) is a natural model for the arrival process in a queueing model for performance analysis. Nevertheless, it is important to perform statistical tests with service system data to confirm that an NHPP is actually appropriate, as emphasized by Brown et al. [8]. They suggested a specific statistical test based on the Kolmogorov–Smirnov (KS) statistic after exploiting the conditional-uniform (CU) property to transform the NHPP into a sequence of i.i.d. random variables uniformly distributed on [0, 1] and then performing a logarithmic transformation of the data. We investigate ...
Simulation models of real-life systems often assume stationary (homogeneous) Poisson arrivals. There...
This dissertation is mainly about prestation-evaluation of queueing systems with unusual arrival pro...
We consider the multi-server, single-channel queue, i.e., a G/G/k queue with k identical servers in ...
Service systems such as call centers and hospital emergency rooms typically have strongly time-varyi...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
When fitting queueing models to service system data, it can be helpful to perform statistical tests ...
When fitting queueing models to service system data, it can be helpful to perform statistical tests ...
We present supporting material in this online supplement to the main paper. In §2 we define the CU a...
This project investigates whether customer arrivals to digital healthcare providers can be appropria...
It is usually assumed that the arrivals to a queue will follow a Poisson process. In its simplest fo...
It is commonly assumed that the arrival process of customers to a service stystem is a nonhomogeneou...
It is commonly assumed that the arrival process of cus-tomers to a service system is a nonhomogeneou...
applied to arrival data from an endocrinology clinic, where arrivals are by appointment. The clinic ...
Simulation models of real-life systems often assume stationary (homogeneous) Poisson arrivals. There...
This dissertation is mainly about prestation-evaluation of queueing systems with unusual arrival pro...
We consider the multi-server, single-channel queue, i.e., a G/G/k queue with k identical servers in ...
Service systems such as call centers and hospital emergency rooms typically have strongly time-varyi...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
Service systems such as call centers and hospitals typically have strongly time-varying arrivals. A ...
When fitting queueing models to service system data, it can be helpful to perform statistical tests ...
When fitting queueing models to service system data, it can be helpful to perform statistical tests ...
We present supporting material in this online supplement to the main paper. In §2 we define the CU a...
This project investigates whether customer arrivals to digital healthcare providers can be appropria...
It is usually assumed that the arrivals to a queue will follow a Poisson process. In its simplest fo...
It is commonly assumed that the arrival process of customers to a service stystem is a nonhomogeneou...
It is commonly assumed that the arrival process of cus-tomers to a service system is a nonhomogeneou...
applied to arrival data from an endocrinology clinic, where arrivals are by appointment. The clinic ...
Simulation models of real-life systems often assume stationary (homogeneous) Poisson arrivals. There...
This dissertation is mainly about prestation-evaluation of queueing systems with unusual arrival pro...
We consider the multi-server, single-channel queue, i.e., a G/G/k queue with k identical servers in ...