Finished research, some overview typos fixed

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<h4>The VA struct class</h4> <h4>The VA struct class</h4>
<p> <p>
VA uses a struct class, that acts like an associative container. Keys are described by strings, and values can be of basic data types like boolean, integer, floating point and strings. Also, more sophisticated VA types like samples are available, i.e. for audio data or impulse responses. Furthermore, structs can load other structs, which means that they can be nested to create well-structured formats. VA uses a struct class, that acts like an associative container. Keys are described by strings, and values can be of basic data types like boolean, integer, floating point and strings. Also, more sophisticated VA types like samples are available, i.e. for audio data or impulse responses. Furthermore, structs can load other structs, which means that they can be nested to create well-structured formats.
Structs behaves very much like Matlab structs or Python dicts, and these objects can be forwarded over remote interfaces, for example to update an impulse reponse in a FIR convolution engine. Structs behave very much like Matlab structs, Python dicts and the JSON format, and these objects can be forwarded over remote interfaces, for example to update an impulse reponse in an FIR convolution engine.
It is very convenient to use this concept for prototyping, and it allows to change parameters in almost every corner of the VA core by parameter setters and getters of modules that can be accessed using the module interface. It is very convenient to use this concept for prototyping, and it allows to change parameters in almost every corner of the VA core by parameter setters and getters of modules that can be accessed using the module interface.
</p> </p>
</section> </section>
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<p> <p>
<i>Wefers, F.; Pelzer, S.; Bomhardt, R.; Müller-Trapet, M. & Vorländer, M.</i><br /> <i>Wefers, F.; Pelzer, S.; Bomhardt, R.; Müller-Trapet, M. & Vorländer, M.</i><br />
<b>Audiotechnik des aixCAVE Virtual Reality-Systems</b><br /> <b>Audiotechnik des aixCAVE Virtual Reality-Systems</b><br />
DAGA 2015 : 41. Jahrestagung für Akustik ; 16. - 19. März 2015, Nürnberg, <strong>2015</strong> DAGA <strong>2015</strong>, Nürnberg (Germany)
</p> </p>
<p> <p>
...@@ -137,7 +137,7 @@ ...@@ -137,7 +137,7 @@
<h3>VA technology publications</h3> <h3>VA technology publications</h3>
<p> <p>
<i>Mecking Jens; Stienen, J. S. P. V. M. </i><br /> <i>Jens Mecking and Jonas Stienen and Michael Vorländer</i><br />
<b>Efficient simulation of sound paths in the atmosphere</b><br /> <b>Efficient simulation of sound paths in the atmosphere</b><br />
Proc. Internoise, Hong Kong, <strong>2017</strong> Proc. Internoise, Hong Kong, <strong>2017</strong>
</p> </p>
...@@ -151,7 +151,7 @@ ...@@ -151,7 +151,7 @@
<p> <p>
<i>Wefers, F. ; Vorländer, M.</i><br /> <i>Wefers, F. ; Vorländer, M.</i><br />
<b>Bewegungsprädiktion in der Echtzeit-Auralisierung dynamischer Schallfelder</b><br /> <b>Bewegungsprädiktion in der Echtzeit-Auralisierung dynamischer Schallfelder</b><br />
Fortschritte der Akustik : DAGA <strong>2015</strong>, Nürnberg DAGA <strong>2015</strong>, Nürnberg (Germany)
</p> </p>
<p> <p>
...@@ -163,7 +163,7 @@ ...@@ -163,7 +163,7 @@
<p> <p>
<i>Wefers, F. & Vorländer, M.</i><br /> <i>Wefers, F. & Vorländer, M.</i><br />
<b>Zeitvariante Beschreibung virtueller Szenen für die Echtzeit-Auralisierung instationärer Schallfelder</b><br /> <b>Zeitvariante Beschreibung virtueller Szenen für die Echtzeit-Auralisierung instationärer Schallfelder</b><br />
Jahrestagung Deutsche Gesellschaft für Akustik (DAGA 2014), Oldenburg, Germany, <strong>2014</strong> DAGA <strong>2014</strong>, Oldenburg (Germany)
</p> </p>
...@@ -183,7 +183,7 @@ ...@@ -183,7 +183,7 @@
<p> <p>
<i>Masiero, B. & Vorländer, M.</i><br /> <i>Masiero, B. & Vorländer, M.</i><br />
<b>A Framework for the Calculation of Dynamic Crosstalk Cancellation Filters</b><br /> <b>A Framework for the Calculation of Dynamic Crosstalk Cancellation Filters</b><br />
Audio, Speech, and Language Processing, IEEE/ACM Transactions, </strong>2014</strong> Audio, Speech, and Language Processing, IEEE/ACM Transactions, <strong>2014</strong>
</p> </p>
<p> <p>
...@@ -213,7 +213,7 @@ ...@@ -213,7 +213,7 @@
<p> <p>
<i>Wefers, F. ; Schröder, D.</i><br /> <i>Wefers, F. ; Schröder, D.</i><br />
<b>Real-time filtering structures for interactive geometry modification in acoustic virtual reality</b><br /> <b>Real-time filtering structures for interactive geometry modification in acoustic virtual reality</b><br />
Proceedings / NAG/DAGA 2009, International Conference on Acoustics : Rotterdam, 23 - 26 March <strong>2009</strong> Proceedings / NAG/DAGA 2009, International Conference on Acoustics : Rotterdam (NL), <strong>2009</strong>
</p> </p>
</section> </section>
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<p>&nbsp;</p> <p>&nbsp;</p>
<h3>Applied VA publications</h3> <h3>Applied VA publications</h3>
<pre>
@todo: <p>
Lukas Aspöck & Florian Pausch / hearing aid renderer <i>Florian Pausch and Janina Fels</i><br />
Johannes Wendt & Andrea Bönsch <b>Auditory distance perception in virtual acoustic environmentsusing binaural technology and simulated room acoustics</b><br />
RBO individual HRTFs DAGA <strong>2017</strong>, Kiel (Germany)
JFE? </p>
Rhoddy listening experiments
Angela Colsmann <p>
JOB listening experiments <i>Tumbrägel, Jonas and Pausch, Florian and Aspöck, Lukas and Fels, Janina</i><br />
FPA listening experiments <b>Investigations on binaural reproduction in virtual acoustic environments using hearing aids</b><br />
Ellen ZP listening experiments DAGA <strong>2016</strong>, Aachen (Germany)
</pre> </p>
<p> <p>
<i>Sahai, A.; Wefers, F.; Pick, S.; Stumpf, E.; Vorländer, M. & Kuhlen, T.</i><br /> <i>Florian Pausch, Zhao Ellen Peng, Lukas Aspöck, and Janina Fels</i><br />
<b> Interactive simulation of aircraft noise in aural and visual virtual environments </b></br &> <b>Speech perception by children in a real-time virtual acoustic environment with simulated hearing aids and room acoustics</b><br />
Applied Acoustics, <strong>2016</strong> ICA <strong>2016</strong>, Buenos Aires (Argentina)
</p> </p>
<p> <p>
<i>Vorländer, M.; Schröer, D.; Pelzer, S. & Wefers, F.</i><br /> <i>Florian Pausch, Michael Kohnen, Lukas Aspöck, Zhao Ellen Peng, and Janina Fels</i><br />
<b>Virtual reality for architectural acoustics</b><br /> <b>Investigation of sound localization performance in a virtual acoustic environment designed for hearing aid users</b><br />
Journal of Building Performance Simulation, <strong>2015</strong> DAGA <strong>2016</strong>, Aachen (Germany)
</p> </p>
<p>
<i>Zhao Ellen Peng, Florian Pausch, and Janina Fels</i><br />
<b>Auditory Training of Spatial Processing in Children with Hearing Loss in Virtual Acoustic Environments: Pretest Results</b><br />
DAGA <strong>2016</strong>, Aachen (Germany)
</p>
<p>
<i>Rhoddy Viveros, Zhao Ellen Peng, Florian Pausch, and Janina Fels</i><br />
<b>Effect of a moving distractor on speech intelligibility in babble noise using a digit-triplet test</b><br />
DAGA <strong>2016</strong>, Aachen (Germany)
</p>
<p> <p>
<i>Sahai, A.; Anton, E.; Stumpf, E.; Wefers, F. & Vorländer, M.</i><br /> <i>Sahai, A.; Wefers, F.; Pick, S.; Stumpf, E.; Vorländer, M. & Kuhlen, T.</i><br />
<b>Interdisciplinary Auralization of Take-off and Landing Procedures for Subjective Assessment in Virtual Reality Environments</b><br /> <b>Interactive simulation of aircraft noise in aural and visual virtual environments </b></br &>
18th AIAA/CEAS Aeroacoustics Conference (33rd AIAA Aeroacoustics Conference), <strong>2012</strong> Applied Acoustics, <strong>2016</strong>
</p> </p>
<p>
<i>Vorländer, M.; Schröer, D.; Pelzer, S. & Wefers, F.</i><br />
<b>Virtual reality for architectural acoustics</b><br />
Journal of Building Performance Simulation, <strong>2015</strong>
</p>
<p>
<i>Wefers, F. ; Vorländer, M.</i><br /> <p>
<b>VATSS : ein Virtual Reality System zur interaktiven Simulation von Fluglärm</b><br /> <i>Florian Pausch, Lukas Aspöck, and Janina Fels</i><br />
Fortschritte der Akustik : DAGA <strong>2012</strong> in Darmstadt <b>Evaluation of binaural sound reproduction systems</b><br>
</p> DAGA <strong>2015</strong>, Nuremberg (Germany)
</p>
<p>
<i>Lukas Aspöck, Florian Pausch, Michael Vorländer, and Janina Fels</i><br />
<b>Dynamic real-time auralization for experiments on the perception of hearing impaired subjects</b><br />
DAGA <strong>2015</strong>, Nuremberg (Germany)
</p>
<p>
<i>Sahai, A.; Anton, E.; Stumpf, E.; Wefers, F. & Vorländer, M.</i><br />
<b>Interdisciplinary Auralization of Take-off and Landing Procedures for Subjective Assessment in Virtual Reality Environments</b><br />
18th AIAA/CEAS Aeroacoustics Conference (33rd AIAA Aeroacoustics Conference), <strong>2012</strong>
</p>
<p>
<i>Wefers, F. ; Vorländer, M.</i><br />
<b>VATSS : ein Virtual Reality System zur interaktiven Simulation von Fluglärm</b><br />
DAGA <strong>2012</strong>, Darmstadt (Germany)
</p>
</section> </section>
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