Spatially-Invariant Opinion Dynamics on the Circle

Giovanna Amorim; Anastasia Bizyaeva; Alessio Franci; Naomi Ehrich Leonard

doi:10.1109/LCSYS.2024.3523466

Spatially-Invariant Opinion Dynamics on the Circle

Giovanna Amorim, Anastasia Bizyaeva, Alessio Franci, Naomi Ehrich Leonard

Research output: Contribution to journal › Article › peer-review

1 Scopus citations

Abstract

We propose and analyze a nonlinear opinion dynamics model for an agent making decisions about a continuous distribution of options in the presence of input. Inspired by perceptual decision-making, we develop new theory for opinion formation in response to inputs about options distributed on the circle. Options on the circle can represent, e.g., the possible directions of perceived objects and resulting heading directions in planar robotic navigation problems. Interactions among options are encoded through a spatially invariant kernel, which we design to ensure that only a small (finite) subset of options can be favored over the continuum. We leverage the spatial invariance of the model linearization to design flexible, distributed opinion-forming behaviors using spatiotemporal frequency domain and bifurcation analysis. We illustrate our model's versatility with an application to robotic navigation in crowded spaces.

Original language	English (US)
Pages (from-to)	3231-3236
Number of pages	6
Journal	IEEE Control Systems Letters
Volume	8
DOIs	https://doi.org/10.1109/LCSYS.2024.3523466
State	Published - 2024

All Science Journal Classification (ASJC) codes

Control and Systems Engineering
Control and Optimization

Keywords

Adaptive systems
biologically-inspired methods
perceptual decision-making
robotics

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10.1109/LCSYS.2024.3523466

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title = "Spatially-Invariant Opinion Dynamics on the Circle",

abstract = "We propose and analyze a nonlinear opinion dynamics model for an agent making decisions about a continuous distribution of options in the presence of input. Inspired by perceptual decision-making, we develop new theory for opinion formation in response to inputs about options distributed on the circle. Options on the circle can represent, e.g., the possible directions of perceived objects and resulting heading directions in planar robotic navigation problems. Interactions among options are encoded through a spatially invariant kernel, which we design to ensure that only a small (finite) subset of options can be favored over the continuum. We leverage the spatial invariance of the model linearization to design flexible, distributed opinion-forming behaviors using spatiotemporal frequency domain and bifurcation analysis. We illustrate our model's versatility with an application to robotic navigation in crowded spaces.",

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AU - Amorim, Giovanna

AU - Bizyaeva, Anastasia

AU - Franci, Alessio

AU - Leonard, Naomi Ehrich

PY - 2024

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AB - We propose and analyze a nonlinear opinion dynamics model for an agent making decisions about a continuous distribution of options in the presence of input. Inspired by perceptual decision-making, we develop new theory for opinion formation in response to inputs about options distributed on the circle. Options on the circle can represent, e.g., the possible directions of perceived objects and resulting heading directions in planar robotic navigation problems. Interactions among options are encoded through a spatially invariant kernel, which we design to ensure that only a small (finite) subset of options can be favored over the continuum. We leverage the spatial invariance of the model linearization to design flexible, distributed opinion-forming behaviors using spatiotemporal frequency domain and bifurcation analysis. We illustrate our model's versatility with an application to robotic navigation in crowded spaces.

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Spatially-Invariant Opinion Dynamics on the Circle

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