Polarized consensus-based dynamics for optimization and sampling (2211.05238v3)
Abstract: In this paper we propose polarized consensus-based dynamics in order to make consensus-based optimization (CBO) and sampling (CBS) applicable for objective functions with several global minima or distributions with many modes, respectively. For this, we ``polarize'' the dynamics with a localizing kernel and the resulting model can be viewed as a bounded confidence model for opinion formation in the presence of common objective. Instead of being attracted to a common weighted mean as in the original consensus-based methods, which prevents the detection of more than one minimum or mode, in our method every particle is attracted to a weighted mean which gives more weight to nearby particles. We prove that in the mean-field regime the polarized CBS dynamics are unbiased for Gaussian targets. We also prove that in the zero temperature limit and for sufficiently well-behaved strongly convex objectives the solution of the Fokker--Planck equation converges in the Wasserstein-2 distance to a Dirac measure at the minimizer. Finally, we propose a computationally more efficient generalization which works with a predefined number of clusters and improves upon our polarized baseline method for high-dimensional optimization.
- D. Ackley “A Connectionist Machine for Genetic Hillclimbing”, The Springer International Series in Engineering and Computer Science New York, NY: Springer US, 2012
- Martin Burger “Network structured kinetic models of social interactions” In Vietnam Journal of Mathematics 49.3 Springer, 2021, pp. 937–956
- Martin Burger “Kinetic equations for processes on co-evolving networks” In Kinetic and Related Models 15.2, 2022, pp. 187–212 DOI: 10.3934/krm.2021051
- “An analytical framework for consensus-based global optimization method” In Mathematical Models and Methods in Applied Sciences 28.06 World Scientific, 2018, pp. 1037–1066
- “Consensus-based sampling” In Studies in Applied Mathematics 148.3 Wiley Online Library, 2022, pp. 1069–1140
- “A consensus-based global optimization method for high dimensional machine learning problems” In ESAIM: Control, Optimisation and Calculus of Variations 27 EDP Sciences, 2021, pp. S5
- José A Carrillo, Claudia Totzeck and Urbain Vaes “Consensus-based optimization and ensemble Kalman inversion for global optimization problems with constraints” In arXiv preprint arXiv:2111.02970, 2021
- Andrew R Conn, Katya Scheinberg and Luis N Vicente “Introduction to derivative-free optimization” Philadelphia, PA: SIAM, 2009
- “Mixing beliefs among interacting agents” In Advances in Complex Systems 3.01n04 World Scientific, 2000, pp. 87–98
- “Consensus-based optimization on hypersurfaces: Well-posedness and mean-field limit” In Mathematical Models and Methods in Applied Sciences 30.14 World Scientific, 2020, pp. 2725–2751
- Massimo Fornasier, Timo Klock and Konstantin Riedl “Consensus-based optimization methods converge globally in mean-field law” In arXiv preprint arXiv:2103.15130, 2021
- “Consensus-Based Optimization on the Sphere: Convergence to Global Minimizers and Machine Learning.” In J. Mach. Learn. Res. 22.237, 2021, pp. 1–55
- “Vector opinion dynamics in a bounded confidence consensus model” In International Journal of Modern Physics C 16.10 World Scientific, 2005, pp. 1535–1551
- “The estimation of the gradient of a density function, with applications in pattern recognition” In IEEE Transactions on information theory 21.1 IEEE, 1975, pp. 32–40
- Javier Gómez-Serrano, Carl Graham and Jean-Yves Le Boudec “The bounded confidence model of opinion dynamics” In Mathematical Models and Methods in Applied Sciences 22.02 World Scientific, 2012, pp. 1150007
- Seung-Yeal Ha, Shi Jin and Doheon Kim “Convergence of a first-order consensus-based global optimization algorithm” In Mathematical Models and Methods in Applied Sciences 30.12 World Scientific, 2020, pp. 2417–2444
- “Opinion dynamics and bounded confidence models, analysis, and simulation” In Journal of artificial societies and social simulation 5.3, 2002
- “Particle swarm optimization” In Proceedings of ICNN’95 - International Conference on Neural Networks 4, 1995, pp. 1942–1948
- Kaare Brandt Petersen and Michael Syskind Pedersen “The matrix cookbook” In Technical University of Denmark 7.15, 2008, pp. 510
- “A consensus-based model for global optimization and its mean-field limit” In Mathematical Models and Methods in Applied Sciences 27.01 World Scientific, 2017, pp. 183–204
- Leonard Andreevič Rastrigin “Systems of extremal control” In Nauka, 1974
- Craig W Reynolds “Flocks, herds and schools: A distributed behavioral model” In Proceedings of the 14th annual conference on Computer graphics and interactive techniques, 1987, pp. 25–34
- Claudia Schillings, Claudia Totzeck and Philipp Wacker “Ensemble-based gradient inference for particle methods in optimization and sampling” In arXiv preprint arXiv:2209.15420, 2022
- P Schnell “Eine Methode zur Auffindung von Gruppen” In Biometrische Zeitschrift 6.1, 1964, pp. 47–48
- Claudia Totzeck “Trends in consensus-based optimization” In Active Particles, Volume 3 Cham: Springer, 2022, pp. 201–226
- “Consensus-based global optimization with personal best” In Mathematical Biosciences and Engineering 17.5, 2020, pp. 6026–6044 DOI: 10.3934/mbe.2020320
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