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P. Annibale, F. Antonacci, P. Bestagini, A. Brutti, A. Canclini, L. Cristoforetti, J. Filos, E. Habets, W. Kellerman, K. Kowalczyk, A. Lombard, E. Mabande, D. Markovic, P. Naylor, and M. Omologo, "The SCENIC Project: Space-Time Audio Processing for Environment-Aware Acoustic Sensingand Rendering," Paper 8485, (2011 October.). doi: P. Annibale, F. Antonacci, P. Bestagini, A. Brutti, A. Canclini, L. Cristoforetti, J. Filos, E. Habets, W. Kellerman, K. Kowalczyk, A. Lombard, E. Mabande, D. Markovic, P. Naylor, and M. Omologo, "The SCENIC Project: Space-Time Audio Processing for Environment-Aware Acoustic Sensingand Rendering," Paper 8485, (2011 October.). doi:
Abstract: SCENIC is an EC-funded project aimed at developing a harmonized corpus of methodologies for environment-aware acoustic sensing and rendering. The project focusses on space-time acoustic processing solutions that do not just accommodate the environment in the modeling process but that make the environment help towards achieving the goal at hand. The solutions developed within this project cover a wide range of applications, including acoustic self-calibration, aimed at estimating the parameters of the acoustic system; environment inference, aimed at identifying and characterizing all the relevant acoustic reflectors in the environment. The information gathered through such steps is then used to boost the performance of wavefield rendering methods as well as source localization/characterization/extraction in reverberant environments.

@article{annibale2011the scenic,
author={annibale, paolo and antonacci, fabio and bestagini, paolo and brutti, alessio and canclini, antonio and cristoforetti, luca and filos, jason and habets, emanuël and kellerman, walter and kowalczyk, konrad and lombard, anthony and mabande, edwin and markovic, dejan and naylor, patrick and omologo, maur},
journal={journal of the audio engineering society},
title={the scenic project: space-time audio processing for environment-aware acoustic sensingand rendering},
year={2011},
volume={},
number={},
pages={},
doi={},
month={october},} @article{annibale2011the scenic,
author={annibale, paolo and antonacci, fabio and bestagini, paolo and brutti, alessio and canclini, antonio and cristoforetti, luca and filos, jason and habets, emanuël and kellerman, walter and kowalczyk, konrad and lombard, anthony and mabande, edwin and markovic, dejan and naylor, patrick and omologo, maur},
journal={journal of the audio engineering society},
title={the scenic project: space-time audio processing for environment-aware acoustic sensingand rendering},
year={2011},
volume={},
number={},
pages={},
doi={},
month={october},
abstract={scenic is an ec-funded project aimed at developing a harmonized corpus of methodologies for environment-aware acoustic sensing and rendering. the project focusses on space-time acoustic processing solutions that do not just accommodate the environment in the modeling process but that make the environment help towards achieving the goal at hand. the solutions developed within this project cover a wide range of applications, including acoustic self-calibration, aimed at estimating the parameters of the acoustic system; environment inference, aimed at identifying and characterizing all the relevant acoustic reflectors in the environment. the information gathered through such steps is then used to boost the performance of wavefield rendering methods as well as source localization/characterization/extraction in reverberant environments.},}

TY - paper
TI - The SCENIC Project: Space-Time Audio Processing for Environment-Aware Acoustic Sensingand Rendering
SP - EP -
AU - Annibale, Paolo
AU - Antonacci, Fabio
AU - Bestagini, Paolo
AU - Brutti, Alessio
AU - Canclini, Antonio
AU - Cristoforetti, Luca
AU - Filos, Jason
AU - Habets, Emanuël
AU - Kellerman, Walter
AU - Kowalczyk, Konrad
AU - Lombard, Anthony
AU - Mabande, Edwin
AU - Markovic, Dejan
AU - Naylor, Patrick
AU - Omologo, Maur
PY - 2011
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2011 TY - paper
TI - The SCENIC Project: Space-Time Audio Processing for Environment-Aware Acoustic Sensingand Rendering
SP - EP -
AU - Annibale, Paolo
AU - Antonacci, Fabio
AU - Bestagini, Paolo
AU - Brutti, Alessio
AU - Canclini, Antonio
AU - Cristoforetti, Luca
AU - Filos, Jason
AU - Habets, Emanuël
AU - Kellerman, Walter
AU - Kowalczyk, Konrad
AU - Lombard, Anthony
AU - Mabande, Edwin
AU - Markovic, Dejan
AU - Naylor, Patrick
AU - Omologo, Maur
PY - 2011
JO - Journal of the Audio Engineering Society
IS -
VO -
VL -
Y1 - October 2011
AB - SCENIC is an EC-funded project aimed at developing a harmonized corpus of methodologies for environment-aware acoustic sensing and rendering. The project focusses on space-time acoustic processing solutions that do not just accommodate the environment in the modeling process but that make the environment help towards achieving the goal at hand. The solutions developed within this project cover a wide range of applications, including acoustic self-calibration, aimed at estimating the parameters of the acoustic system; environment inference, aimed at identifying and characterizing all the relevant acoustic reflectors in the environment. The information gathered through such steps is then used to boost the performance of wavefield rendering methods as well as source localization/characterization/extraction in reverberant environments.