On a fair and risk‐averse urban air mobility resource allocation problem under demand and capacity uncertainties

Author:

Sun Luying1,Deng Haoyun2,Wei Peng3,Xie Weijun2

Affiliation:

1. Department of Industrial & Systems Engineering Virginia Tech Blacksburg Virginia USA

2. H. Milton Stewart School of Industrial and Systems Engineering Georgia Institute of Technology Atlanta Georgia USA

3. Department of Mechanical & Aerospace Engineering George Washington University Washington District of Columbia USA

Abstract

AbstractUrban air mobility (UAM) is an emerging air transportation mode to alleviate the ground traffic burden and achieve zero direct aviation emissions. Due to the potential economic scaling effects, the UAM traffic flow is expected to increase dramatically once implemented, and its market can be substantially large. To be prepared for the era of UAM, we study the fair and risk‐averse urban air mobility resource allocation model (FairUAM) under passenger demand and airspace capacity uncertainties for fair, safe, and efficient aircraft operations. FairUAM is a two‐stage model, where the first stage is the aircraft resource allocation, and the second stage is to fairly and efficiently assign the ground and airspace delays to each aircraft provided the realization of random airspace capacities and passenger demand. We show that FairUAM is NP‐hard even when there is no delay assignment decision or no aircraft allocation decision. Thus, we recast FairUAM as a mixed‐integer linear program (MILP) and explore model properties and strengthen the model formulation by developing multiple families of valid inequalities. The stronger formulation allows us to develop a customized exact decomposition algorithm with both benders and L‐shaped cuts, which significantly outperforms the off‐the‐shelf solvers. Finally, we numerically demonstrate the effectiveness of the proposed method and draw managerial insights when applying FairUAM to a real‐world network.

Funder

National Science Foundation of Sri Lanka

Publisher

Wiley

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