Sandris Dubovs V L Nav Neka -

"In rigorous testing, including the , VL-Nav achieved a 75–83% success rate across indoor and outdoor settings. In real-world deployments, it maintained an 86.3% success rate , demonstrating reliability over long-range trajectories of up to 483 meters." Resources for Further Development

Uses a CVL (Curiosity-driven Vision-Language) score to prioritize exploring unknown areas that align with human descriptions.

Leverages a 3D scene graph and image memory to help Vision Language Models (VLMs) replan tasks in real-time. Sandris Dubovs V L Nav Neka

You can find the full technical details on arXiv: VL-Nav .

"Traditional robot navigation often fails when faced with complex, multi-step instructions or unknown environments, resulting in inefficient 'aimless wandering.' addresses this by intertwining neural semantic understanding with symbolic 3D scene graphs. This allows the robot to decompose abstract commands—like finding a waterproof jacket based on a rain report—into logical navigation goals." 2. Key Technical Features (Good for Specs) "In rigorous testing, including the , VL-Nav achieved

View demonstrations on robots like the Unitree G1 and Go2 at the SAIR Lab Project Page .

For related open-source frameworks, check repositories like oobvlm on GitHub. You can find the full technical details on arXiv: VL-Nav

is an advanced robotic navigation framework that combines neural reasoning (the "brain") with symbolic guidance (the "logic") to help robots navigate complex environments. Unlike traditional methods that might lead to aimless wandering, VL-Nav uses a NeSy (Neuro-Symbolic) Task Planner and an Exploration System to understand abstract human instructions. Useful Text Blocks 1. The "Problem & Solution" Pitch (Good for Intros)