INFORMS Journal Service Science Study Key Takeaways:
- Blocking the middle seats on airplanes may provide little to no benefit in reducing the risk of COVID-19.
- Seating assignments on airplanes limit the risk of COVID-19 transmission.
- The seating assignment model is tailored to each aircraft and is specific to its size and layout.
- The assignment model can be added to the aircraft’s existing procedures to further reduce the risks of transmitting COVID-19.
CATONSVILLE, MD, March 24, 2021 – COVID-19 has been shown to spread on airplanes by infected passengers, so minimizing the risk of secondary infections aboard aircraft may save lives. New research in the INFORMS journal Service Science uses two models to help solve the airplane seating assignment problem (ASAP). The models can lower the transmission risk of COVID-19 more so than the strategy of blocking the middle seats, given the same number of passengers.
“Blocking the middle seat on an airplane may provide limited benefit in reducing the risk of transmission of COVID-19. Rather, other health protocols are better supported at preventing the transmission of the virus,” said Sheldon Jacobson, Founder Professor of computer science at the University of Illinois Urbana-Champaign.
The study, “Airplane Seating Assignment Problem,” was conducted by Jacobson, John Pavlik and Ian Ludden, all from the University of Illinois Urbana-Champaign, alongside Edward Sewell from Southern Illinois University Edwardsville.
The researchers introduce two variations of a seating assignment model to optimize how each plane should seat passengers depending on the plane’s size and how seats are distributed on the aircraft.
The two models are called vertex packing risk minimization (VPR) and risk-constrained vertex packing (RCV). To determine which to use to solve ASAP, you match the specific airplane being filled using the best-known disease transmission risks, then solve the instance to generate an optimal seating solution.
“Every seat on the airplane corresponds to a single vertex in the graph. Edges between vertices represent the risk of transmitting a disease between each pair of seats. If either seat in a pair is empty, then there is no risk of transmitting a disease, and hence VPR and RCV are closely related to the vertex packing problem,” continued Jacobson.
“Given an undirected graph modeling an airplane seating assignment problem instance with appropriate risks on the edges, the solution to VPR is an optimal configuration of seats to minimize the risk of transmission for a fixed number of passengers on the airplane. Similarly, the solution to RCV is the maximum number of passengers and corresponding seat configuration given a maximum acceptable total risk of transmission.”
About INFORMS and Service Science
INFORMS is the leading international association for operations research and analytics professionals. Service Science, one of 17 journals published by INFORMS, is a premier academic journal that covers state-of-the-art research, education, practice and breakthroughs in the service science industry that focus on people's satisfaction and success. More information is available at www.informs.org or @informs.
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