arxiv_ai 92% Match Dataset Paper AI Researchers,Robotics Engineers,Search and Rescue Professionals,Audio Engineers 2 weeks ago

DroneAudioset: An Audio Dataset for Drone-based Search and Rescue

speech-audio › audio-generation

📄 Abstract

Abstract: Unmanned Aerial Vehicles (UAVs) or drones, are increasingly used in search and rescue missions to detect human presence. Existing systems primarily leverage vision-based methods which are prone to fail under low-visibility or occlusion. Drone-based audio perception offers promise but suffers from extreme ego-noise that masks sounds indicating human presence. Existing datasets are either limited in diversity or synthetic, lacking real acoustic interactions, and there are no standardized setups for drone audition. To this end, we present DroneAudioset (The dataset is publicly available at https://huggingface.co/datasets/ahlab-drone-project/DroneAudioSet/ under the MIT license), a comprehensive drone audition dataset featuring 23.5 hours of annotated recordings, covering a wide range of signal-to-noise ratios (SNRs) from -57.2 dB to -2.5 dB, across various drone types, throttles, microphone configurations as well as environments. The dataset enables development and systematic evaluation of noise suppression and classification methods for human-presence detection under challenging conditions, while also informing practical design considerations for drone audition systems, such as microphone placement trade-offs, and development of drone noise-aware audio processing. This dataset is an important step towards enabling design and deployment of drone-audition systems.

Authors (5)

Chitralekha Gupta

Soundarya Ramesh

Praveen Sasikumar

Kian Peen Yeo

Suranga Nanayakkara

Submitted

October 17, 2025

arXiv Category

eess.AS

arXiv PDF Code

Key Contributions

This paper presents DroneAudioset, a comprehensive and publicly available audio dataset specifically designed for drone-based search and rescue applications. It features 23.5 hours of annotated recordings across various drone types, microphone configurations, and challenging SNR levels, addressing the lack of realistic acoustic data for this domain. The dataset enables systematic development and evaluation of drone audition systems.

Business Value

A standardized, realistic dataset for drone audition is crucial for developing reliable audio perception systems for search and rescue. This can significantly improve the effectiveness and safety of drone operations in critical situations, potentially saving lives.

Paper Metadata

Innovation Type

Dataset Creation

Deployment Feasibility

High (dataset enables research and development)

Limitations Addressed

Existing datasets for drone audition are limited in diversity or are synthetic, lacking real acoustic interactions. There are no standardized setups for drone audition. Vision-based methods fail in low-visibility conditions. Drone-based audio perception suffers from extreme ego-noise.

View Code on GitHub

Technical Tags

Drone AuditionSearch and RescueAudio DatasetSignal-to-Noise Ratio (SNR)Acoustic PerceptionNoise RobustnessHuman Presence DetectionUAVMicrophone ConfigurationsMIT License

Research Topics

Audio DatasetsAcoustic SensingSearch and Rescue TechnologyMachine Learning for AudioEnvironmental Sound Analysis

Methods & Architectures

Dataset CurationAudio AnnotationSystematic Evaluation Setup

Applications & Tasks

Search and Rescue Unmanned Aerial Vehicles (UAVs) Drones Public Safety Data ScarcityNoise RobustnessHuman Sound Detection Drone-based audio perceptionHuman presence detection in noisy environments

Datasets & Benchmarks

Datasets

DroneAudioset

Related Fields

Audio Signal ProcessingMachine LearningRoboticsSearch and RescueAcoustics

Keywords

DroneUAVAudio DatasetSearch and RescueAcoustic PerceptionNoiseSNRHuman DetectionPublic SafetyDatasetMIT LicenseMicrophoneEgo-noiseReal-world data

Academic Context

#Audio Datasets#Acoustic Sensing#Search and Rescue Technology#Machine Learning for Audio#Environmental Sound Analysis

Commercial Potential

Potential Products

Drone-based audio surveillance systemsSearch and rescue guidance systemsEnvironmental monitoring tools

Target Industries

Public SafetyEmergency ServicesAerospaceRoboticsSecurity

Use Case Examples

Drones detecting faint human sounds in disaster zonesAudio-based navigation for drones in complex environmentsMonitoring wildlife sounds

Competitive Edge

This dataset fills a critical gap by providing realistic, diverse, and well-annotated audio data specifically for drone audition in challenging environments, unlike existing limited or synthetic datasets.

Market Opportunity

Growing use of drones in public safety and commercial applications

Revenue Models

Services utilizing drone audio analysisDevelopment of specialized drone hardware/software

Resource Requirements

Compute Needs

Low (for dataset access and initial analysis)

Data Requirements

Audio recording equipment, annotation tools

Deployment Constraints

Real-time audio processing, drone battery life, environmental factors

Scalability

The dataset itself is static, but models trained on it can be scaled.

Production Readiness

Maturity Level

Data Resource

Time to Market

1-3 years (for applications built on the dataset)

Licensing

MIT License

Patent Potential

Low (dataset release)

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