Abstract-The geometry of an acoustic environment can be an important information in many audio signal processing applications. To estimate such a geometry, previous work has relied on large microphone arrays, multiple test sources, moving sources or the assumption of a 2D room. In this paper, we lift these requirements and present a novel method that uses a compact microphone array to estimate a 3D room geometry, delivering effective estimates with low-cost hardware. Our approach first probes the environment with a known test signal emitted by a loudspeaker co-located with the array, from which the room impulse responses (RIRs) are estimated. It then uses an 1-regularized least-squares minimization to fit synthetically generated reflections...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
Estimating a room geometry using multiple microphones rises an echoes labeling problem. Two recent m...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
Room geometry inference is concerned with the localization of reflective boundaries in an enclosed s...
The knowledge of parameters characterizing an acoustic environment, such as the geometric informatio...
Echoes generated by the sound reflected off the walls of a room carry information about the geometry...
This paper presents a method to reconstruct the 3D structure of generic convex rooms from sound sign...
For a 2D rectangular room of unknown dimensions and with unknown source and microphone positions, th...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
State-of-the-art room geometry inference algorithms estimate the shape of a room by analyzing peaks ...
Room Impulse Responses (RIRs) measured with microphone arrays capture spatial and nonspatial informa...
Accurate sound field reproduction in rooms is often limited by the lack of knowledge of the room cha...
For many audio applications, availability of recorded multi-channel room impulse responses (MC-RIRs)...
In this paper we propose a cuboid-based air-tight indoor room geometry estimation method using combi...
In this paper we propose a cuboid-based air-tight indoor room geometry estimation method using combi...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
Estimating a room geometry using multiple microphones rises an echoes labeling problem. Two recent m...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
Room geometry inference is concerned with the localization of reflective boundaries in an enclosed s...
The knowledge of parameters characterizing an acoustic environment, such as the geometric informatio...
Echoes generated by the sound reflected off the walls of a room carry information about the geometry...
This paper presents a method to reconstruct the 3D structure of generic convex rooms from sound sign...
For a 2D rectangular room of unknown dimensions and with unknown source and microphone positions, th...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
State-of-the-art room geometry inference algorithms estimate the shape of a room by analyzing peaks ...
Room Impulse Responses (RIRs) measured with microphone arrays capture spatial and nonspatial informa...
Accurate sound field reproduction in rooms is often limited by the lack of knowledge of the room cha...
For many audio applications, availability of recorded multi-channel room impulse responses (MC-RIRs)...
In this paper we propose a cuboid-based air-tight indoor room geometry estimation method using combi...
In this paper we propose a cuboid-based air-tight indoor room geometry estimation method using combi...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
Estimating a room geometry using multiple microphones rises an echoes labeling problem. Two recent m...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...