A Time-Dependent Spatial Queueing Model for the Daily Deployment of Airtankers for Forest Fire Control
From MaRDI portal
Publication:6160225
DOI10.3138/infor.47.4.319OpenAlexW2089015441MaRDI QIDQ6160225
David L. Martell, Unnamed Author, Morton J. M. Posner
Publication date: 9 May 2023
Published in: INFOR: Information Systems and Operational Research (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.3138/infor.47.4.319
differential equationsnumerical solutionErlangspatial point processwildland firePoissonforest fire managementinitial-attack
Related Items (3)
The use of aircraft tracking GPS data to develop models of the use of airtankers in forest fire management ⋮ Fifty years of operational research in forestry ⋮ Operations research challenges in forestry: 33 open problems
Cites Work
- The finite capacity multi-server queue with inhomogeneous arrival rate and discrete service time distribution - and its application to continuous service time problems
- A hypercube queueing model embedded into a genetic algorithm for ambulance deployment on highways
- A multiperiod set covering location model for dynamic redeployment of ambulances
- A Survey and Experimental Comparison of Service-Level-Approximation Methods for Nonstationary M(t)/M/s(t) Queueing Systems with Exhaustive Discipline
- The Stochastic Queue p-Median Problem
- The Maximal Expected Covering Location Problem: Revisited
- Using the discrete time modelling approach to evaluate the time-dependent behaviour of queueing systems
- Some Effects of Nonstationarity on Multiserver Markovian Queueing Systems
- Improving the Sipp Approach for Staffing Service Systems That Have Cyclic Demands
- Emergency service systems: The use of the hypercube queueing model in the solution of probabilistic location problems
- Approximating the Performance of Urban Emergency Service Systems
- Technical Note—Approximating Vehicle Dispatch Probabilities for Emergency Service Systems with Location-Specific Service Times and Multiple Units per Location
- The M-Server Queue with Poisson Input and Gamma-Distributed Service of Order Two
- Steady State Solution of the Queue M/Ek/r
- Deploying Wildland Fire Suppression Resources with a Scenario-Based Standard Response Model
- Unnamed Item
- Unnamed Item
- Unnamed Item
This page was built for publication: A Time-Dependent Spatial Queueing Model for the Daily Deployment of Airtankers for Forest Fire Control
