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Aggregative feedback optimization for distributed cooperative robotics

Guido Carnevale, Nicola Mimmo, Giuseppe Notarstefano

2022IFAC-PapersOnLine31 citationsDOIOpen Access PDF

Abstract

In this paper we propose Aggregative Tracking Feedback, i.e., a novel distributed feedback optimization law that steers network systems to a steady state, which is optimal according to an aggregative optimization problem. Aggregative optimization is a recently emerged distributed optimization framework in which the agents of a network minimize the sum of local objective functions. These functions depend both on local and aggregate decision variables (e.g., the barycenter). Motivated by this problem setup, we design a distributed feedback optimization law in which each agent reconstructs information not locally available while concurrently steering the network to an optimal steady state. We perform a system theoretical analysis based on a singular perturbation approach to show that Aggregative Tracking Feedback, in case of strongly convex objective functions, steers the network with a linear convergence rate to the problem minimum. Finally, we show some numerical simulations on a multi-robot surveillance scenario to validate the effectiveness of the proposed method.

Topics & Concepts

Optimization problemMathematical optimizationConvergence (economics)Computer scienceConvex optimizationControl theory (sociology)Rate of convergenceRobotPerturbation (astronomy)Regular polygonMathematicsKey (lock)Artificial intelligenceControl (management)EconomicsComputer securityGeometryQuantum mechanicsPhysicsEconomic growthDistributed Control Multi-Agent SystemsMathematical and Theoretical Epidemiology and Ecology ModelsMathematical Biology Tumor Growth