Under CopyrightSchnaus, ManuelManuelSchnausPalackal, LillyLillyPalackalPoggel, BenediktBenediktPoggelRunge, XiomaraXiomaraRungeEhm, HansHansEhmLorenz, Jeanette MiriamJeanette MiriamLorenzMendl, Christian B.Christian B.Mendl2024-09-022024-09-022024https://publica.fraunhofer.de/handle/publica/474331https://doi.org/10.24406/publica-362310.1109/QSW62656.2024.0002210.24406/publica-3623Routing problems are a common optimization problem in industrial applications, which occur on a large scale in supply chain planning. Due to classical limitations for solving NP-hard problems, quantum computing hopes to improve upon speed or solution quality. Several suggestions have been made for encodings of routing problems to solve them with variational quantum algorithms. However, for an end user it is hard to decide a priori which encoding will give the best solutions according to their needs. In this work, we investigate different encodings for the Travelling Salesperson Problem. We compare their scaling and performance when using the Quantum Approximate Optimization Algorithm and the Variational Quantum Eigensolver and provide a clear guide for users when to choose which encoding. For small instances, we find evidence that the permutation encoding can yield results since it does not suffer from feasibility issues.enquantum optimizationtravelling salesperson problemencodingvariational quantum algorithmconference paper