Advances in Queueing Theory and Network Applications (Lecture Notes in Mathematics; 754 #754)
Description
Queueing Processes.- Two Sided DQBD Process and Solutions to the Tail Decay Rate Problem and Their Applications to the Generalized Join Shortest Queue.- Analytical Model of On-Demand Streaming Services Based on Renewal Reward Theory.- Single-Server Queues.- A Pure Decrement Service Geom/G/1 Queue with Multiple Adaptive Vacations.- Performance Analysis of an M/M/1 Working Vacation Queue with Setup Times.- Modeling of Production System with Nonrenewal Batch Input, Early Setup, and Extra Jobs.- Performance Analysis of an M/E k /1 Queue with Balking and Two Service Rates Based on a Single Vacation Policy.- Multiple Queues.- Markovian Polling Systems: Functional Computation for Mean Waiting Times and its Computational Complexity.- Performance Analysis of a Two-Station MTO/MTS Production System.- Finite-Buffer Queues.- Analysis of an M/M/c/N Queueing System with Balking, Reneging, and Synchronous Vacations.- Analysis of Mixed Loss-Delay M/M/m/K Queueing Systems with State-Dependent Arrival Rates.- Asymptotic Behavior of Loss Rate for Feedback Finite Fluid Queue with Downward Jumps.- Explicit Probability Density Function for the Length of a Busy Period in an M/M/1/K Queue.- Network Applications.- Performance Analysis of ARQ Schemes in Self-Similar Traffic.- Modeling of P2P File Sharing with a Level-Dependent QBD Process.- Performance Analysis of a Decentralized Content Delivery System with FEC Recovery.- Blocking Probabilities of Multiple Classes in IP Networks with QoS Routing.