Quantum Annealing for Realistic Traffic Flow Optimization: Clustering and Data-Driven QUBO

Abstract

Managing city traffic is a complex NP-hard problem where traditional methods often fail to scale. We present a data-driven approach that reformulates traffic optimization as a Quadratic Unconstrained Binary Optimization, capturing both congestion reduction and travel-time efficiency. The model integrates simulated realistic mobility data, multiple routing alternatives, and analytically derived penalty constraints. To address large networks, we apply Leiden clustering to preserve critical congestion patterns while reducing problem size. Benchmarking on up to 25,000 vehicles shows that hybrid quantum annealing achieves near-optimal solutions within 1% of the classical solver Gurobi while reducing congestion by up to 25%.