The following publications are possibly variants of this publication:
- Biased Initial Distribution for Simulation of Queues with a Superposition of Periodic and Bursty SourcesFumio Ishizaki. bnt 2000: 129-138
- Smoothed Perturbation Analysis for Stationary Single-Server Queues with Multiple Customer ClassesNaoto Miyoshi. deds, 7(3):275-293, 1997. [doi]
- On the implementation of a smoothed perturbation analysis estimator for a single-server queue with multiple vacationsTakayuki Tagaki, Naoto Miyoshi. wsc 1999: 435-441 [doi]
- Finding good combinations of initial phases for periodic sources in discrete-time queuesFumio Ishizaki, Chikara Ohta. icc 1998: 1510-1514 [doi]
- Bounds for the Tail Distribution in a Queue with the Superposition of General Periodic Markov SourcesFumio Ishizaki, Tetsuya Takine. infocom 1997: 1088-1095
- Loss probability in a finite discrete-time queue in terms of the steady state distribution of an infinite queueFumio Ishizaki, Tetsuya Takine. questa, 31(3-4):317-326, 1999. [doi]
- An application of the proportional relation to concurrent estimationFumio Ishizaki, George C. Lin, Tatsuya Suda. tac, 48(10):1861-1865, 2003. [doi]
- Bounds for the tail distribution in a queue with a superposition of general periodic Markov sources: theory and applicationFumio Ishizaki, Tetsuya Takine. questa, 34(1-4):67-100, 2000.
- On-line derivative estimation for the multiclass single-server priority queue using perturbation analysisNaoto Miyoshi, Toshiharu Hasegawa. tac, 41(2):300-305, 1996. [doi]
- Analysis of a Discrete-Time Queue with Gated PriorityFumio Ishizaki, Tetsuya Takine, Toshiharu Hasegawa. pe, 23(2):121-143, 1995. [doi]
- Loss probability in a finite queue with service interruptions and queue length distribution in the corresponding infinite queueFumio Ishizaki. pe, 63(7):682-699, 2006. [doi]
- On-line concurrent estimation of priority queueing systems with feedback controlled and non-renewal input streamsFumio Ishizaki. cdc 2000: 406-411 [doi]
- An optimal stopping problem for software rejuvenation in a job processing systemFumio Machida, Naoto Miyoshi. issre 2015: 139-143 [doi]
- Analysis of an optimal stopping problem for software rejuvenation in a deteriorating job processing systemFumio Machida, Naoto Miyoshi. ress, 168:128-135, 2017. [doi]