Add to ORKGA linear four microphone array can be employed for acoustic event location in a real environment using an accurate time delay estimation. This paper refers to the use of a specific techniques, based on Crosspower Spectrum Phase (CSP) analysis, that yielded accurate location performance. The behavior of this technique is investigated under different noise and reverberation conditions. Real experiments as well as simulations were conducted to analyze a wide variety of situations. Results show system robustness at quite critical environmental condition
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
Detection, localization and enhancement of a generic acoustic message produced in a noisy environmen...
This paper considers the application of signal processing methods to passive indoor positioning with...
This correspondence on the use of crosspower-spectrum phase (CSP) analysis as an accurate time delay...
The cross power-spectrum phase (CSP) method plays an important role in time delay estimate due to it...
Linear microphone arrays can be employed for acoustic event localization in a noisy environment usin...
This work deals with the use of linear microphone arrays for acoustic event localaization in a noisy...
A microphone array can be used to locate a dominant acoustic source in a given environment. This cap...
ICASSP2000: IEEE International Conference on Acoustics, Speech, and Signal Processing, June 5-9, ...
The very large relative bandwidth of acoustic sources, coupled with the high number of reflections o...
The aim of this research is to investigate microphone array techniques based condition monitoring (C...
The design, implementation, and performance of a low-cost, realtime DSP system for source location ...
Acoustic source localization in the presence of reverberation is a difficult task. Conventional appr...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
The angular location of an acoustic source can be estimated by measuring an acoustic direction of in...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
Detection, localization and enhancement of a generic acoustic message produced in a noisy environmen...
This paper considers the application of signal processing methods to passive indoor positioning with...
This correspondence on the use of crosspower-spectrum phase (CSP) analysis as an accurate time delay...
The cross power-spectrum phase (CSP) method plays an important role in time delay estimate due to it...
Linear microphone arrays can be employed for acoustic event localization in a noisy environment usin...
This work deals with the use of linear microphone arrays for acoustic event localaization in a noisy...
A microphone array can be used to locate a dominant acoustic source in a given environment. This cap...
ICASSP2000: IEEE International Conference on Acoustics, Speech, and Signal Processing, June 5-9, ...
The very large relative bandwidth of acoustic sources, coupled with the high number of reflections o...
The aim of this research is to investigate microphone array techniques based condition monitoring (C...
The design, implementation, and performance of a low-cost, realtime DSP system for source location ...
Acoustic source localization in the presence of reverberation is a difficult task. Conventional appr...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
The angular location of an acoustic source can be estimated by measuring an acoustic direction of in...
The pressure changes of an acoustic wavefront are sensed with a microphone that acts as a transducer...
Detection, localization and enhancement of a generic acoustic message produced in a noisy environmen...
This paper considers the application of signal processing methods to passive indoor positioning with...