Double-sided matching queues: priority and impatient customers
From MaRDI portal
Publication:2294303
DOI10.1016/j.orl.2019.03.003zbMath1476.90084OpenAlexW2921838721WikidataQ128261574 ScholiaQ128261574MaRDI QIDQ2294303
Publication date: 10 February 2020
Published in: Operations Research Letters (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.orl.2019.03.003
Queueing theory (aspects of probability theory) (60K25) Queues and service in operations research (90B22)
Related Items (5)
Double-ended queues with non-Poisson inputs and their effective algorithms ⋮ On a multiple priorities matching system with heterogeneous delay sensitive individuals ⋮ Double-sided queues with marked Markovian arrival processes and abandonment ⋮ Strategic customer behavior and optimal policies in a passenger-taxi double-ended queueing system with multiple access points and nonzero matching times ⋮ Optimal pricing and service capacity management for a matching queue problem with loss-averse customers
Cites Work
- Unnamed Item
- Unnamed Item
- State-dependent \(\mathrm{M}/\mathrm{G}/1\) queueing systems
- An \(M/G/1\) retrial \(G\)-queue with non-exhaustive random vacations and an unreliable server
- Joint queue length distribution of multi-class, single-server queues with preemptive priorities
- Modeling the transplant waiting list: A queueing model with reneging
- Time-dependent analysis of an \(\mathrm{M}/\mathrm{M}/c\) preemptive priority system with two priority classes
- The M/G/1 queue with disasters and working breakdowns
- Exact tail asymptotics in a priority queue -- characterizations of the preemptive model
- Fluid and diffusion approximations of probabilistic matching systems
- Exact FCFS Matching Rates for Two Infinite Multitype Sequences
- Double-Sided Batch Queues with Abandonment: Modeling Crossing Networks
- A Pollaczek–Khintchine formula for M/G/1 queues with disasters
- M/M/c Queue with Two Priority Classes
- Diffusion Models for Double-ended Queues with Renewal Arrival Processes
- The Geo/G/1 Queue with Disasters and Multiple Working Vacations
- Queues with negative arrivals
- Product-form queueing networks with negative and positive customers
- Analysis of a stochasticclearing system with repeated attempts
- The Workload in the M/G/1 Queue with Work Removal
- Clearing models for \(M/G/1\) queues
This page was built for publication: Double-sided matching queues: priority and impatient customers
