Quantum-Inspired Approach to Analyzing Complex System Dynamics – Dongju Lim

In this talk, we discuss the paper “Quantum-Inspired Approach to Analyzing Complex System Dynamics” by P. Kafashi and M. Orujlu, 2025, arxiv.

Abstract

We present a quantum information-inspired framework for analyzing complex systems through multivariate time series. In this approach the system’s state is encoded into a density matrix, providing a compact representation of higher-order correlations and dependencies. This formulation enables precise quantification of the relative influence among time series, tracking of their response to external perturbations and also the definition of a recovery timescale without need for dimensional reduction. By leveraging tools such as fidelity from quantum information theory, our method naturally captures higher-order co-fluctuations beyond pairwise statistics, offering a holistic characterization of resilience and similarity in high-dimensional dynamics. We validate this approach on synthetic data generated by a 9-dimensional modified Lorenz-96 model and demonstrate its utility on real-world climate data, analyzing global temperature anomalies across nine regions, quantifying the dissimilarity of each 288-month time window up to July 2025 relative to the 1850-1874 baseline period.