The flying sidekick traveling salesman problem: Optimization of drone-assisted parcel delivery

The flying sidekick traveling salesman problem: Optimization of drone-assisted parcel delivery

•Two new optimization problems related to parcel delivery by drone are defined.•These problems are inspired by Amazon’s, Google’s, and DHL’s drone delivery programs.•In one problem, a drone may be launched from a traditional delivery truck.•Mixed integer programming formulations for these problems a...

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Bibliographic Details
Published in:Transportation research. Part C, Emerging technologies Vol. 54; pp. 86 - 109
Main Authors: Murray, Chase C., Chu, Amanda G.
Format: Journal Article
Language:English
Published: Elsevier India Pvt Ltd 01-05-2015
Subjects:
Delivery scheduling
Drone aircraft
Heuristic
Heuristics
Integer programming
Logistics
Mathematical models
Parcels
Traveling salesman problem
Trucks
Unmanned aerial vehicle
Unmanned aerial vehicles
Unmanned aircraft
Vehicle routing problem
Integer programming
Traveling salesman problem
Unmanned aerial vehicle
Vehicle routing problem
Heuristics
Logistics
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Summary:•Two new optimization problems related to parcel delivery by drone are defined.•These problems are inspired by Amazon’s, Google’s, and DHL’s drone delivery programs.•In one problem, a drone may be launched from a traditional delivery truck.•Mixed integer programming formulations for these problems are provided.•Efficient, yet effective, heuristics are proposed to solve these NP-hard problems. Once limited to the military domain, unmanned aerial vehicles are now poised to gain widespread adoption in the commercial sector. One such application is to deploy these aircraft, also known as drones, for last-mile delivery in logistics operations. While significant research efforts are underway to improve the technology required to enable delivery by drone, less attention has been focused on the operational challenges associated with leveraging this technology. This paper provides two mathematical programming models aimed at optimal routing and scheduling of unmanned aircraft, and delivery trucks, in this new paradigm of parcel delivery. In particular, a unique variant of the classical vehicle routing problem is introduced, motivated by a scenario in which an unmanned aerial vehicle works in collaboration with a traditional delivery truck to distribute parcels. We present mixed integer linear programming formulations for two delivery-by-drone problems, along with two simple, yet effective, heuristic solution approaches to solve problems of practical size. Solutions to these problems will facilitate the adoption of unmanned aircraft for last-mile delivery. Such a delivery system is expected to provide faster receipt of customer orders at less cost to the distributor and with reduced environmental impacts. A numerical analysis demonstrates the effectiveness of the heuristics and investigates the tradeoffs between using drones with faster flight speeds versus longer endurance.
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ISSN:0968-090X
1879-2359
DOI:10.1016/j.trc.2015.03.005