Prioritized customer order scheduling to maximize throughput
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Publication:323536
DOI10.1016/j.ejor.2016.05.066zbMath1346.90408OpenAlexW2410818007MaRDI QIDQ323536
Yaping Zhao, Yanni Liu, Hai-Dong Li, Xiao Yun Xu
Publication date: 7 October 2016
Published in: European Journal of Operational Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.ejor.2016.05.066
Queues and service in operations research (90B22) Stochastic scheduling theory in operations research (90B36)
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Cites Work
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- Maximizing throughput in finite-source parallel queue systems
- Multi-state throughput analysis of a two-stage manufacturing system with parallel unreliable machines and a finite buffer
- Closed two node priority queueing networks
- Instability of FIFO queueing networks
- A multiclass network with non-linear, non-convex, non-monotonic stability conditions
- On positive Harris recurrence of multiclass queueing networks: A unified approach via fluid limit models
- Stabilizing priority fluid queueing network model
- Ergodicity of stochastic processes describing the operation of open queueing networks
- Maximizing throughput in queueing networks with limited flexibility
- Dynamic load balancing in parallel queueing systems: stability and optimal control
- Dynamic task assignment for throughput maximization with worksharing
- Server Assignment Policies for Maximizing the Steady-State Throughput of Finite Queueing Systems
- Multiproduct Systems with Both Setup Times and Costs: Fluid Bounds and Schedules
- Stabilizing Batch-Processing Networks
- Dynamic Server Allocation for Queueing Networks with Flexible Servers
- Priority Queuing Networks
- "First come, first served" can be unstable!
- Stability of Multiclass Queueing Networks Under Priority Service Disciplines
- Stability of queueing networks and scheduling policies
- Stability and Instability of Fluid Models for Reentrant Lines
