Paper Detail

UAVReason: A Unified, Large-Scale Benchmark for Multimodal Aerial Scene Reasoning and Generation

Jintao Sun, Hu Zhang, Donglin Di, Gangyi Ding, Zhedong Zheng

Browse

Workflow Queues

arxiv Score 13.8

Published 2026-04-07 · First seen 2026-04-08

General AI

Open paper source

Abstract

Vision-Language models (VLMs) have demonstrated remarkable capability in ground-view visual understanding but often fracture when deployed on high-altitude Unmanned Aerial Vehicles (UAVs). The failure largely stems from a pronounced domain shift, characterized by tiny and densely packed objects, repetitive textures, and ambiguous top-down orientations. These factors severely disrupt semantic grounding and hinder both spatial reasoning and controllable generation. To bridge this critical gap, we introduce UAVReason, the first unified large-scale multi-modal benchmark dedicated to nadir-view UAV scenarios, derived from a high-fidelity UAV simulation platform. In contrast to existing UAV benchmarks, which are largely siloed and focus on single tasks like object detection or segmentation, UAVReason uniquely consolidates over 273K Visual Question Answering (VQA) pairs, including 23.6K single frames with detailed captions, 68.2K 2-frame temporal sequences, and 188.8K cross-modal generation samples. The benchmark probes 22 diverse reasoning types across spatial and temporal axes while simultaneously evaluating high-fidelity generation across RGB, depth, and segmentation modalities. We further establish a strong, unified baseline model via multi-task learning. Extensive experiments validate the efficacy of our unified approach across diverse metrics, such as EM/F1 for VQA, mIoU for segmentation, and CLIP Score for generation. These results indicate limitations of general-domain vision-language models and show that unified multi-task learning substantially improves UAV-native performance. All data, code, and evaluation tools will be publicly released to advance UAV multimodal research.

Workflow Status

Review status
pending
Role
unreviewed
Read priority
now
Vote
Not set.
Saved
no
Collections
Not filed yet.
Next action
Not filled yet.

Reading Brief

No structured notes yet. Add `summary_sections`, `why_relevant`, `claim_impact`, or `next_action` in `papers.jsonl` to enrich this view.

Why It Surfaced

No ranking explanation is available yet.

Tags

No tags.

Similar Papers

MathNet: a Global Multimodal Benchmark for Mathematical Reasoning and Retrieval 2026-04-20 · Score 18.3 General AI HERMES++: Toward a Unified Driving World Model for 3D Scene Understanding and Generation 2026-04-30 · Score 15.2 General AI OceanPile: A Large-Scale Multimodal Ocean Corpus for Foundation Models 2026-04-25 · Score 15.0 General AI SPEED-Bench: A Unified and Diverse Benchmark for Speculative Decoding 2026-02-10 · Score 10.5 General AI GlazyBench: A Benchmark for Ceramic Glaze Property Prediction and Image Generation 2026-05-07 · Score 16.8 General AI

BibTeX

@article{sun2026uavreason,
  title = {UAVReason: A Unified, Large-Scale Benchmark for Multimodal Aerial Scene Reasoning and Generation},
  author = {Jintao Sun and Hu Zhang and Donglin Di and Gangyi Ding and Zhedong Zheng},
  year = {2026},
  abstract = {Vision-Language models (VLMs) have demonstrated remarkable capability in ground-view visual understanding but often fracture when deployed on high-altitude Unmanned Aerial Vehicles (UAVs). The failure largely stems from a pronounced domain shift, characterized by tiny and densely packed objects, repetitive textures, and ambiguous top-down orientations. These factors severely disrupt semantic grounding and hinder both spatial reasoning and controllable generation. To bridge this critical gap, we },
  url = {https://arxiv.org/abs/2604.05377},
  keywords = {cs.CV},
  eprint = {2604.05377},
  archiveprefix = {arXiv},
}

Metadata

{}