Paper Search

My Schedule

Paper Index

Help

My ICASSP 2013 Schedule

Note: Your custom schedule will not be saved unless you create a new account or login to an existing account.

Create a login based on your email (takes less than one minute)
Perform 'Paper Search'
Select papers that you desire to save in your personalized schedule
Click on 'My Schedule' to see the current list of selected papers
Click on 'Printable Version' to create a separate window suitable for printing (the header and menu will appear, but will not actually print)

Clicking on the Add button next to a paper title will add that paper to your custom schedule.
Clicking on the Remove button next to a paper will remove that paper from your custom schedule.

AASP-L6: Room Acoustics and Acoustic System Modeling

Session Type: Lecture

Time: Friday, May 31, 15:20 - 17:20

Location: Room 109

Session Chair: Tomohiro Nakatani, NTT

AASP-L6.1: A PERCEPTUALLY CONSTRAINED CHANNEL SHORTENING TECHNIQUE FOR SPEECH DEREVERBERATION

Ina Kodrasi; University of Oldenburg

Stefan Goetze; Fraunhofer Institute for Digital Media Technology (IDMT)

Simon Doclo; University of Oldenburg

AASP-L6.2: BLIND REVERBERATION TIME ESTIMATION BY INTRINSIC MODELING OF REVERBERANT SPEECH

Ronen Talmon; Yale University

Emanuel A.P. Habets; International Audio Laboratories Erlangen

AASP-L6.3: NOISE-ROBUST REVERBERATION TIME ESTIMATION USING SPECTRAL DECAY DISTRIBUTIONS WITH REDUCED COMPUTATIONAL COST

James Eaton; Imperial College London

Nikolay Gaubitch; Signal and Information Processing Lab, Delft University of Technology

Patrick Naylor; Imperial College London

AASP-L6.4: FINITE-DIFFERENCE TIME DOMAIN METHOD SOURCE CALIBRATION FOR HYBRID ACOUSTICS MODELING

Samuel Siltanen; Aalto University School of Science

Alex Southern; Aalto University School of Science

Lauri Savioja; Aalto University School of Science

AASP-L6.5: INTEGRATING FINITE DIFFERENCE SCHEMES FOR SCALAR AND VECTOR WAVE EQUATIONS

Jonathan Botts; Aalto University

Lauri Savioja; Aalto University

AASP-L6.6: APPROXIMATE CONVOLUTION USING PARTITIONED TRUNCATED SINGULAR VALUE DECOMPOSITION FILTERING

Joshua Atkins; Beats Electronics, LLC

Adam Strauss; Beats Electronics, LLC

Chen Zhang; Beats Electronics, LLC