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Planar Room Impulse Response Dataset - ACT, DTU Electro (b. 355 r. 008)

Version 2 2024-01-30, 08:13
Version 1 2023-05-23, 06:50
dataset
posted on 2024-01-30, 08:13 authored by Xenofon KarakonstantisXenofon Karakonstantis, Efren Fernandez GrandeEfren Fernandez Grande

Dataset of Room Impulse Responses measured at the Acoustic Technology group facilities, DTU Electro. The measurements were carried out in building 355, room 008, otherwise known as the "sound field control" room.

The dataset consists of measurements of the acoustic impulse response in a regular square grid of 80x80 cm2. The measurements consist of 30x30 room impulse responses (e.g. 900 RIRs) where the microphone, a 1/2 inch free field condenser measurement microphone (Br\"uel\&Kj\"aer, N\ae rum, Denmark) was automatically positioned using a UR5 (Universal Robots, Odense, Denmark) scanning robotic arm. A BM6 loudspeaker (Dynaudio, Skanderborg, Denmark) placed in a room corner was used to excite the room with 5s wideband logarithmic sweeps.  


The data are available as H5 (Hierarchical Data Formats) with the following structure:


Dataset "Sound field control room - HDF5 datastructure"

Dataset.attributes
   ├── calibration (1) '94.33 dB @ 1.14 kHz'
   ├── fs (1) 48000 Hz
   ├── grid_bottom (3x900) [[2.76, 2.32, 2.73, ...  2.738 2.76..., ...]] m
   ├── loudspeaker_position (3) [5.779 0.263 0.904] m
   ├── room_dimensions (3)  [6.124 5.771 3.073] m
   ├── sweep_amplitude (1) 0.4
   ├── sweep_duration (1) 5 s
   ├── sweep_range (2) [32. 12000.] Hz
   ├── temperature (1) 20.3 °C
   └── true_calibration (1) '94.19 dB @ 1.17 kHz'
Dataset.groups
   ├── Noise_recs_bottom (12x3x144000) float64
   ├── RIRs_bottom (900x25439) float64 (e.g. 900 positions)
   └── sweep_signal (288000) float64

Use with Matlab: https://mathworks.com/help/matlab/hdf5-files.html 

Use with Python: https://docs.h5py.org/en/stable/


This dataset is part of the project Danish Sound Cluster project titled "Physics-informed Neural Networks for Sound Field Reconstruction" [url]. Find more datasets here: Project Page

Funding

Villum Fonden through Villum Young Investigator grant number 19179 for the project 'Large-scale Acoustic Holography'

Ministry of Education and Research (UFS)

Danish Agency for Higher Education and Science

History

ORCID for corresponding depositor