arxiv_cl 95% Match Research Paper Robotics Engineers,AI Researchers,ML Engineers,AI Safety Specialists 3 weeks ago

LIBERO-Plus: In-depth Robustness Analysis of Vision-Language-Action Models

robotics › manipulation

📄 Abstract

Abstract: Visual-Language-Action (VLA) models report impressive success rates on robotic manipulation benchmarks, yet these results may mask fundamental weaknesses in robustness. We perform a systematic vulnerability analysis by introducing controlled perturbations across seven dimensions: objects layout, camera viewpoints, robot initial states, language instructions, light conditions, background textures and sensor noise. We comprehensively analyzed multiple state-of-the-art models and revealed consistent brittleness beneath apparent competence. Our analysis exposes critical weaknesses: models exhibit extreme sensitivity to perturbation factors, including camera viewpoints and robot initial states, with performance dropping from 95% to below 30% under modest perturbations. Surprisingly, models are largely insensitive to language variations, with further experiments revealing that models tend to ignore language instructions completely. Our findings challenge the assumption that high benchmark scores equate to true competency and highlight the need for evaluation practices that assess reliability under realistic variation.

Authors (13)

Senyu Fei

Siyin Wang

Junhao Shi

Zihao Dai

Jikun Cai

Pengfang Qian

+7 more

Submitted

October 15, 2025

arXiv Category

cs.RO

arXiv PDF

Key Contributions

LIBERO-Plus provides a systematic and in-depth robustness analysis of state-of-the-art Vision-Language-Action (VLA) models in robotic manipulation. By introducing controlled perturbations across seven dimensions, it reveals critical weaknesses, showing extreme sensitivity to factors like camera viewpoints and robot initial states, while surprisingly demonstrating insensitivity to language variations, challenging assumptions about model competence and generalization.

Business Value

Crucial for building reliable and safe robotic systems. Understanding these vulnerabilities allows for the development of more robust VLA models, essential for deploying robots in unpredictable real-world environments.

Paper Metadata

Innovation Type

Evaluation Framework/Analysis

Deployment Feasibility

High, as it's an evaluation framework that informs the development of deployable systems.

Limitations Addressed

Masked weaknesses in VLA model robustness,Lack of systematic analysis of perturbation effects,Overestimation of model generalization capabilities

Technical Tags

vision-language-actionroboticsrobustness analysisperturbation analysisvulnerability assessmentrobotic manipulationmodel generalizationsensitivity analysis

Research Topics

RoboticsAI SafetyModel RobustnessComputer VisionHuman-Robot Interaction

Methods & Architectures

LIBERO-Plus dataset/frameworkSystematic perturbation analysisControlled variations across 7 dimensionsSensitivity analysis Vision-Language-Action (VLA) models

Applications & Tasks

Robotic Manipulation Autonomous Systems AI Safety Brittleness of VLA modelsLack of robustness to environmental changesOver-reliance on specific input conditions Robustness EvaluationVulnerability IdentificationRobotic Task Performance

Datasets & Benchmarks

Datasets

LIBERO-Plus

Success RatesPerformance Drop (%)

Related Fields

RoboticsArtificial IntelligenceComputer VisionMachine LearningAI Safety

Keywords

roboticsvision-language-actionrobustnessvulnerabilityperturbationmanipulationevaluationAI safetygeneralizationdeep learning

Academic Context

#Robotics#AI Safety#Model Robustness#Computer Vision#Human-Robot Interaction

Commercial Potential

Potential Products

Robust VLA model development frameworksRobotic control systems for challenging environments

Target Industries

RoboticsManufacturingLogisticsAutomotiveAerospace

Use Case Examples

Robots performing assembly tasks in varying lighting conditionsAutonomous systems navigating cluttered environments

Competitive Edge

Provides a comprehensive and systematic framework (LIBERO-Plus) for analyzing VLA model robustness, offering deeper insights than previous ad-hoc evaluations.

Market Opportunity

Large, driven by the increasing adoption of robotics and AI in various industries.

Revenue Models

Could be integrated into AI development platforms or consulting services.

Resource Requirements

Compute Needs

High, for running extensive simulations and evaluations across multiple models and perturbation scenarios.

Data Requirements

The LIBERO-Plus dataset, which includes controlled perturbations.

Deployment Constraints

Findings highlight the need for significant improvements in VLA model robustness before widespread deployment in safety-critical applications.

Scalability

The analysis framework is scalable to new VLA models and potentially other domains.

Regulatory Considerations

Safety standards for autonomous systems and robots.

Production Readiness

Maturity Level

Research

Time to Market

N/A (analysis framework), but informs development timelines for robust systems (3-5 years).

Patent Potential

Low, as it's an analysis framework.

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