Agile decision makings; Changing environment; Condition; Continous time; Decision-making modeling; Dynamic decision; Frequency encoding; Non-linear controllers; Opinion dynamics; Tunables; Control and Systems Engineering; Modeling and Simulation; Control and Optimization
Abstract :
[en] Spiking Nonlinear Opinion Dynamics (S-NOD) is an excitable decision-making model inspired by the spiking dynamics of neurons. S-NOD enables the design of agile decision-making that can rapidly switch between decision options in response to a changing environment. In S-NOD, decisions are represented by discrete opinion spikes that evolve in continuous time. Here, we extend previous analysis of S-NOD and explore its potential as a nonlinear controller with a tunable balance between robustness and responsiveness to input. We identify and provide necessary conditions for the bifurcation that determines the onset of periodic opinion spiking. We leverage this analysis to characterize the tunability of the input-output threshold for opinion spiking as a function of the model basal sensitivity and the tunable dependence of opinion spiking frequency on input magnitude above the threshold. We conclude with a discussion of S-NOD as a new neuromorphic control block and its extension to distributed spiking controllers.
Disciplines :
Electrical & electronics engineering
Author, co-author :
Belaustegui, Ian Xul; Princeton University, Department of Mechanical and Aerospace Engineering, United States
Franci, Alessio ; Université de Liège - ULiège > Département d'électricité, électronique et informatique (Institut Montefiore) > Brain-Inspired Computing
Leonard, Naomi Ehrich; Princeton University, Department of Mechanical and Aerospace Engineering, United States
Language :
English
Title :
Tunable Thresholds and Frequency Encoding in a Spiking NOD Controller
Publication date :
2025
Event name :
2025 IEEE 64th Conference on Decision and Control (CDC)
Event place :
Rio de Janeiro, Bra
Event date :
09-12-2025 => 12-12-2025
Audience :
International
Main work title :
2025 IEEE 64th Conference on Decision and Control, CDC 2025
Publisher :
Institute of Electrical and Electronics Engineers Inc.
MathWorks (United States) MERL - Mitsubishi Electric Research Laboratories (United States) Quanser (Canada) SIAM - Society for Industrial and Applied Mathematics
Funding text :
This research has been supported in part by ONR grant N00014-19-1-2556 and the William R. and Jane G. Schowalter Research Fund; Franklin Open; Springer
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