Title :
Nonstationary traffic models for mobile satellite communications systems
Author_Institution :
Div. of Satellite Commun., Motorola Inc., Chandler, AZ, USA
Abstract :
Two models for nonstationary traffic analysis of mobile satellite communications systems are developed. First, a cell associated with a satellite footprint is modeled as the M/M/c/c loss system. The corresponding birth-and-death equations yield a differential equation for the system state dynamic evolution in time. Examining the channel holding times distribution in more detail shows that its exponential feature is very doubtful. A more general model following the M/G/c/c system is proposed. In order to match the mean and variance of the actual service time we adopt a method of stages consisting in decomposing the service time distribution into a collection of distributions provided by exponential servers in series. Both proposed models are validated by means of extensive simulations
Keywords :
difference equations; exponential distribution; mobile satellite communication; queueing theory; statistical analysis; telecommunication traffic; M/G/c/c system; M/M/c/c loss system; birth-and-death equations; channel holding times distribution; differential equation; exponential servers; mean; mobile satellite communications systems; nonstationary traffic analysis; nonstationary traffic models; satellite footprint; service time distribution; simulations; system state dynamic evolution; variance; Analytical models; Artificial satellites; Communication system traffic; Differential equations; Exponential distribution; Random variables; Satellite communication; Satellite ground stations; Stationary state; Traffic control;
Conference_Titel :
Personal, Indoor and Mobile Radio Communications, 1996. PIMRC'96., Seventh IEEE International Symposium on
Conference_Location :
Taipei
Print_ISBN :
0-7803-3692-5
DOI :
10.1109/PIMRC.1996.567433
