arxiv_ai 95% Match Research Paper AI Researchers,Computer Vision Engineers,Robotics Developers,LMM Developers 2 weeks ago

Spatial457: A Diagnostic Benchmark for 6D Spatial Reasoning of Large Multimodal Models

computer-vision › 3d-vision

📄 Abstract

Abstract: Although large multimodal models (LMMs) have demonstrated remarkable capabilities in visual scene interpretation and reasoning, their capacity for complex and precise 3-dimensional spatial reasoning remains uncertain. Existing benchmarks focus predominantly on 2D spatial understanding and lack a framework to comprehensively evaluate 6D spatial reasoning across varying complexities. To address this limitation, we present Spatial457, a scalable and unbiased synthetic dataset designed with 4 key capability for spatial reasoning: multi-object recognition, 2D location, 3D location, and 3D orientation. We develop a cascading evaluation structure, constructing 7 question types across 5 difficulty levels that range from basic single object recognition to our new proposed complex 6D spatial reasoning tasks. We evaluated various large multimodal models (LMMs) on PulseCheck457, observing a general decline in performance as task complexity increases, particularly in 3D reasoning and 6D spatial tasks. To quantify these challenges, we introduce the Relative Performance Dropping Rate (RPDR), highlighting key weaknesses in 3D reasoning capabilities. Leveraging the unbiased attribute design of our dataset, we also uncover prediction biases across different attributes, with similar patterns observed in real-world image settings. The code and data are released in https://github.com/XingruiWang/Spatial457.

Authors (6)

Xingrui Wang

Wufei Ma

Tiezheng Zhang

Celso M de Melo

Jieneng Chen

Alan Yuille

Submitted

February 12, 2025

arXiv Category

cs.CV

arXiv PDF

Key Contributions

Introduces Spatial457, a scalable and unbiased synthetic dataset and diagnostic benchmark specifically designed to evaluate the 6D spatial reasoning capabilities of Large Multimodal Models (LMMs). It addresses the lack of comprehensive frameworks for 3D spatial understanding by introducing tasks for multi-object recognition, 2D/3D location, and 3D orientation across varying complexities.

Business Value

Enables more accurate and reliable perception systems for robots, autonomous vehicles, and AR/VR applications by providing a rigorous way to test and improve their 3D spatial understanding.

Paper Metadata

Innovation Type

Dataset and Benchmark

Deployment Feasibility

The benchmark itself is a research tool; its findings directly inform the development and deployment of LMMs for real-world 3D tasks.

Limitations Addressed

Existing benchmarks focus predominantly on 2D spatial understanding and lack a framework to comprehensively evaluate 6D spatial reasoning across varying complexities.

Performance Gains

Observes a general decline in LMM performance as task complexity increases, particularly in 3D reasoning and 6D spatial tasks, highlighting current limitations.

Technical Tags

Spatial ReasoningLarge Multimodal Models (LMMs)6D Spatial Understanding3D Location3D OrientationSynthetic DatasetDiagnostic BenchmarkObject RecognitionCascading EvaluationTask Complexity

Research Topics

Multimodal AIComputer Vision3D Scene UnderstandingSpatial ReasoningAI Evaluation

Methods & Architectures

Synthetic dataset generation (Spatial457)Cascading evaluation structureMulti-object recognition2D/3D location and orientation estimation Large Multimodal Models (LMMs)

Applications & Tasks

Robotics Autonomous Driving Augmented Reality 3D Content Creation Virtual Reality Spatial Understanding3D PerceptionMultimodal ReasoningBenchmark Development Comprehensively evaluating 6D spatial reasoning capabilities of LMMsProviding a diagnostic benchmark for complex 3D spatial tasks

Datasets & Benchmarks

Datasets

Spatial457

Benchmarks

Spatial457 benchmark

Performance on multi-object recognition2D location accuracy3D location accuracy3D orientation accuracyPerformance across 7 question types and 5 difficulty levels

Related Fields

Computer VisionRoboticsMultimodal Learning3D GeometryAI Evaluation

Keywords

Spatial Reasoning3D UnderstandingLarge Multimodal ModelsLMMBenchmarkDataset6D PoseObject Recognition3D Location3D OrientationSynthetic Data

Academic Context

#Multimodal AI#Computer Vision#3D Scene Understanding#Spatial Reasoning#AI Evaluation

Commercial Potential

Potential Products

Improved perception modules for robotsMore capable AR/VR systemsAdvanced autonomous driving perception stacks

Target Industries

RoboticsAutomotiveGamingVirtual RealityAugmented Reality

Use Case Examples

Robots accurately grasping objects in 3D spaceAutonomous vehicles understanding the precise 3D position and orientation of obstaclesAR applications accurately overlaying virtual objects onto the real world

Competitive Edge

Provides a specialized and comprehensive benchmark for a critical but underexplored area (6D spatial reasoning) of LMM capabilities.

Market Opportunity

Large market for AI systems requiring robust 3D perception.

Revenue Models

N/A (benchmark)

Resource Requirements

Compute Needs

Low for using the benchmark, high for training LMMs evaluated on it.

Data Requirements

The Spatial457 dataset is provided.

Deployment Constraints

The benchmark is for evaluation; real-world deployment depends on LMM capabilities.

Scalability

The dataset is designed to be scalable.

Production Readiness

Maturity Level

Benchmark/Dataset Release

Time to Market

N/A (benchmark)

Patent Potential

Low, primarily a dataset and evaluation framework.

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