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Conflict-Aware Active Perception and Control in 3D Gaussian Splatting Fields via Control Barrier Functions

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abstract

Active perception in uncertain environments requires robots to navigate safely while acquiring informative observations to reduce map uncertainty. These objectives inherently conflict, as informative viewpoints often lie near uncertain regions with higher collision risk. To address this challenge, we develop a conflict-aware active perception and control framework for robotic systems operating in environments represented by 3D Gaussian Splatting (3DGS). Safety is enforced using a Control Barrier Function (CBF) derived from an Average Value-at-Risk AV@R collision-risk metric that accounts for geometric uncertainty and guarantees forward invariance of a safe set. To improve perception, we propose a risk-aware Expected Information Gain (EIG) formulation for selecting the next-best-view and introduce perception barrier functions that align the camera orientation with the local information-ascent direction. To obtain a tractable formulation for these conflicting safety and perception objectives, we propose a unified safety-critical, perception-aware quadratic program that enforces safety as a hard constraint while relaxing perception constraints through slack variables. Simulation results demonstrate that the proposed method improves both safety and information acquisition compared to existing 3DGS-based approaches.

fields

cs.RO 1

years

2026 1

verdicts

UNVERDICTED 1

representative citing papers

Multi-Agent Next-Best-View Optimization for Risk-Averse Planning

cs.RO · 2026-06-02 · unverdicted · novelty 5.0

Distributed risk-aware NBV framework for multi-agent planning using private 3DGS maps, C-ADMM optimization, and AV@R risk scoring that approaches centralized performance with orders-of-magnitude less communication.

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Showing 1 of 1 citing paper.

  • Multi-Agent Next-Best-View Optimization for Risk-Averse Planning cs.RO · 2026-06-02 · unverdicted · none · ref 8 · internal anchor

    Distributed risk-aware NBV framework for multi-agent planning using private 3DGS maps, C-ADMM optimization, and AV@R risk scoring that approaches centralized performance with orders-of-magnitude less communication.