Add to ORKGIn this paper we discuss a method for localizing acoustic reflectors in space based on acoustic measurements on source-to-microphone reflective paths. The method converts Time of Arrival (TOA) and Time Difference of Arrival (TDOA) into quadratic constraints on the line corresponding to the reflector. In order to be robust against measurement errors we derive an exact solution for the minimization of a cost function that combines an arbitrary number of quadratic constraints. Moreover we propose a new method for the analytic prediction of reflector localization accuracy. This method is sufficiently general to be applicable to a wide range of estimation problems
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
The knowledge of the acoustic environment is advantageous for many applications of signal processing...
This paper addresses the problem of localizing an acoustic source by optimally fusing the observatio...
In this paper we discuss a method for localizing acoustic reflectors in space based on acoustic me...
In this paper we propose a methodology for localizing acoustic planar reflectors in a 3D geometry, u...
In this paper we propose a methodology for localizing acoustic pla-nar reflectors in a 3D geometry, ...
In this paper we propose a novel technique to localize planar ob-stacles through the measurement of ...
This paper concerns the problem of localizing three-dimensional planar obstacles through multiple e...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
Acoustic reflector localization is an important issue in audio signal processing, with direct applic...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
The knowledge of the acoustic environment is advantageous for many applications of signal processing...
This paper addresses the problem of localizing an acoustic source by optimally fusing the observatio...
In this paper we discuss a method for localizing acoustic reflectors in space based on acoustic me...
In this paper we propose a methodology for localizing acoustic planar reflectors in a 3D geometry, u...
In this paper we propose a methodology for localizing acoustic pla-nar reflectors in a 3D geometry, ...
In this paper we propose a novel technique to localize planar ob-stacles through the measurement of ...
This paper concerns the problem of localizing three-dimensional planar obstacles through multiple e...
Determining the geometry of an acoustic enclosure using microphone arrays has become an active area ...
In this paper we present a simple yet effective method for estimating the geometry of an acoustic en...
Acoustic reflector localization is an important issue in audio signal processing, with direct applic...
Acoustic scene reconstruction is a process that aims to infer characteristics of the environment fro...
The knowledge of the acoustic environment is advantageous for many applications of signal processing...
This paper addresses the problem of localizing an acoustic source by optimally fusing the observatio...