%% This BibTeX bibliography file was created using BibDesk. %% http://bibdesk.sourceforge.net/ %% Created for Martin Kaltenbrunner at 2017-02-24 14:16:22 +0100 %% Saved with string encoding Unicode (UTF-8) @inproceedings{RT_KJGA06, Address = {Manchester, U.K.}, Author = {Kaltenbrunner, Martin and Jord{\`a}, Sergi and Geiger, G{\"u}nter and Alonso, Marcos}, Booktitle = {Proceedings of the Workshop on Tangible Interaction in Collaborative Environments (TICE)}, Date-Added = {2017-02-24 13:12:40 +0000}, Date-Modified = {2017-02-24 13:14:17 +0000}, Organization = {IEEE}, Title = {The reacTable: A Collaborative Musical Instrument}, Year = {2006}} @inproceedings{RT_JGAK07, Abstract = {Jord{\`a}, S. & Geiger, G. & Alonso, A. & Kaltenbrunner, M. "", }, Address = {Baton Rouge, Louisiana}, Author = {Jord{\`a}, Sergi and Geiger, G{\"u}nter and Alonso, Marcos and Kaltenbrunner, Martin}, Booktitle = {Proceedings of the first international conference on Tangible and Embedded Interaction (TEI07)}, Date-Added = {2017-02-24 13:10:41 +0000}, Date-Modified = {2017-02-24 13:15:12 +0000}, Organization = {ACM}, Title = {The reacTable: Exploring the Synergy between Live Music Performance and Tabletop Tangible Interfaces}, Year = {2007}} @inproceedings{RTV_KB07, Address = {Baton Rouge, Louisiana}, Author = {Kaltenbrunner, Martin and Bencina, Ross}, Booktitle = {Proceedings of the first international conference on Tangible and Embedded Interaction (TEI07)}, Date-Added = {2017-02-24 13:08:50 +0000}, Date-Modified = {2017-02-24 13:15:17 +0000}, Organization = {ACM}, Title = {reacTIVision: A Computer-Vision Framework for Table-Based Tangible Interaction}, Year = {2007}} @inproceedings{RTV_K09, Address = {Banff, Canada}, Author = {Kaltenbrunner, Martin}, Booktitle = {Proceedings of the ACM International Conference on Interactive Tabletops and Surfaces (ITS2009)}, Date-Added = {2017-02-24 13:07:14 +0000}, Date-Modified = {2017-02-24 13:15:01 +0000}, Organization = {ACM}, Title = {reacTIVision and TUIO: A Tangible Tabletop Toolkit}, Year = {2009}} @inproceedings{TS_TK14, Address = {London, U.K.}, Author = {Tom{\'a}s, Enrique and Kaltenbrunner, Martin}, Booktitle = {Proceedings of the 14th Conference on New Interfaces for Musical Expression (NIME14)}, Date-Added = {2017-02-24 13:05:58 +0000}, Date-Modified = {2017-02-24 13:06:55 +0000}, Title = {Tangible Scores: Shaping the Inherent Instrument Score}, Year = {2014}} @inproceedings{SF_EK16, Address = {Niagara Falls, Canada}, Author = {Echtler, Florian and Kaltenbrunner, Martin}, Booktitle = {Proceedings of the ACM International Conference on Interactive Surfaces and Spaces (ISS2016)}, Date-Added = {2017-02-24 13:01:11 +0000}, Date-Modified = {2017-02-24 13:14:42 +0000}, Organization = {ACM}, Title = {SUR40 Linux: Reanimating an Obsolete Tangible Interaction Platform}, Year = {2016}} @inproceedings{RTV_BK05, Abstract = {The reacTIVision system is software for tracking specially designed fiducials (markers) in a real-time video stream. ReacTIVision was designed to enable expressive gestural control of musical sound, and can track many markers at a high frame rate. The development of reacTIVision involved not only computer vision algorithms, but also the design of a new marker system. We co-designed the computer vision system and markers, applying evolutionary computation to minimise marker size while meeting geometric constraints required to efficiently compute the location and 2D orientation of the markers. The computer vision techniques adopted would not have been practical had the genetic algorithms not been able to solve these constraints. This paper focuses on the design and evolution of the markers, the computer vision aspects of reacTIVision are documented elsewhere.}, Address = {Melbourne, Australia}, Author = {Bencina, Ross and Kaltenbrunner, Martin}, Booktitle = {Proceedings of the 3rd International Conference on Generative Systems in the Electronic Arts (3rd Iteration 2005)}, Title = {The Design and Evolution of Fiducials for the reacTIVision System}, Year = {2005}} @inproceedings{RT_JKGB05, Abstract = {This paper describes the reacTable*, a novel multi-user electro-acoustic music instrument with a tabletop tangible user interface, which is being developed at the MTG in Barcelona. We rst introduce the reacTable* project and some of the concepts behind its design and we then discuss interaction and performance scenarios.}, Address = {Barcelona, Spain}, Author = {Jord{\`a}, Sergi and Kaltenbrunner, Martin and Geiger, G{\"u}nter and Bencina, Ross}, Booktitle = {Proceedings of the International Computer Music Conference (ICMC 2005)}, Date-Modified = {2017-02-24 13:15:27 +0000}, Organization = {ICMA}, Title = {The reacTable*}, Year = {2005}} @inproceedings{RTV_BKJ05, Abstract = {This paper describes reacTIVision: a camera based two dimensional fiducial (marker) tracking system developed for the reacTable*, a table based tangible musical instrument. Key features of reacTIVision include: (1) the ability to track a large number of fiducials with faster than real-time performance and (2) fiducial size may be varied depending on the number of distinct fiducial identities required. We describe recent advances in our implementation of topologybased fiducial recognition, including a generalised method for accurately computing fiducial location and orientation. A method of graph naming known as left heavy depth sequences is applied to the identification of topologically distinct fiducials. Also discussed is our approach to generating fiducial images for the system, in which we employ evolutionary computation to produce compact fiducials with specific geometric properties.}, Address = {San Diego, USA}, Author = {Bencina, Ross and Kaltenbrunner, Martin and Jord{\`a}, Sergi}, Booktitle = {Proceedings of the IEEE International Workshop on Projector-Camera Systems (Procams 2005)}, Date-Modified = {2017-02-24 13:15:39 +0000}, Organization = {IEEE}, Title = {Improved Topological Fiducial Tracking in the reacTIVision System}, Year = {2005}} @inproceedings{TUIO_KBBC05, Abstract = {In this article we present Tuio, a simple yet versatile protocol designed specifically to meet the requirements of table-top tangible user interfaces. Inspired by the idea of interconnecting various existing table interfaces such as the reacTable*, being developed in Barcelona and the tDesk from Bielefeld, this protocol defines common properties of controller objects on the table surface as well as of finger and hand gestures performed by the user. Currently this protocol has been implemented within a fiducial marker-based computer vision engine developed for the reacTable* project. This fast and robust computer vision engine is based on the original d-touch concept, which is also included as an alternative to the newer fiducial tracking engine. The computer vision framework has been implemented on various standard platforms and can be extended with additional sensor components. We are currently working on the tracking of finger-tips for gestural control within the table interface. The Tuio protocol has been implemented using OpenSound Control and is therefore usable on any platform supporting this protocol. At the moment we have working implementations for Java, C++, PureData, Max/MSP, SuperCollider and Flash.}, Address = {Vannes, France}, Author = {Kaltenbrunner, Martin and Bovermann, Till and Bencina, Ross and Costanza, Enrico}, Booktitle = {Proceedings of the 6th International Workshop on Gesture in Human-Computer Interaction and Simulation (GW 2005)}, Title = {TUIO - A Protocol for Table Based Tangible User Interfaces}, Year = {2005}} @inproceedings{RT_KGS04, Abstract = {This article reflects the current state of the reacTable* project, an electronic music instrument with a tangible table-based interface, which is currently under development at the Audiovisual Institute at the Universitat Pompeu Fabra. In this paper we are focussing on the issue of Dynamic Patching, which is a particular and unique aspect of the sound synthesis and control paradigms of the reacTable*. Unlike common visual programming languages for sound synthesis, which conceptually separate the patch building process from the actual musical performance, the reacTable* combines the construction and playing of the instrument in a unique way. The tangible interface allows direct manipulation control over any of the used building blocks, which physically represent the whole synthesizer function.}, Address = {Hamamatsu, Japan}, Author = {Kaltenbrunner, Martin and Geiger, G{\"u}nter and Jord{\`a}, Sergi}, Booktitle = {Proceedings of the 4th Conference on New Interfaces for Musical Expression (NIME04)}, Date-Modified = {2017-02-24 13:15:50 +0000}, Title = {Dynamic Patches for Live Musical Performance}, Year = {2004}} @inproceedings{RT_KMC04, Abstract = {In this paper we describe object design considerations for the reacTable* project, a novel tangible musical instrument, developed at the Audiovisual Institute at the Universiat Pompeu Fabra. The work presented in this paper is the result of a collaboration with the Palpable Machines Group at Media Lab Europe, which focussed on haptic design aspects of the reacTable* instrument. We present a simple haptic encoding scheme for the mapping of abstract sound synthesis objects onto tangible proxy objects.}, Address = {Leeds, UK}, Author = {Kaltenbrunner, Martin and O'Modhrain, Sile and Costanza, Enrico}, Booktitle = {Proceedings of the COST287-ConGAS Symposium on Gesture Interfaces for Multimedia Systems}, Title = {Object Design Considerations for Tangible Musical Interfaces}, Year = {2004}} @inproceedings{PSO_BK02, Address = {Darmstadt, Germany}, Author = {Barbosa, {\'A}lvaro and Kaltenbrunner, Martin}, Booktitle = {Proceedings of the 2nd International Conference on Web Delivering of Music}, Date-Modified = {2017-02-24 13:05:13 +0000}, Title = {Public Sound Objects: A Shared Musical Space on the Web}, Year = {2002}} @inproceedings{YW_KAL02, Address = {Kyoto, Japan}, Author = {Kaltenbrunner, Martin}, Booktitle = {Proceedings of the 8th International Conference on Auditory Display}, Title = {Y-Windows: Proposal for a Standard AUI Environment}, Year = {2002}} @inproceedings{FM_CKGB02, Address = {Paris, France}, Author = {Cano, Pedro and Kaltenbrunner, Martin and Gouyon, Fabien and Battle, Eloi}, Booktitle = {Proceedings of the International Symposium on Music Information Retrieval}, Title = {On the Use of Fastmap for Audio Retrieval and Browsing}, Year = {2002}} @inproceedings{SS_CKMB01, Address = {Bloomington, Indiana, USA}, Author = {Cano, Pedro and Kaltenbrunner, Martin and Mayor, Oscar and Batlle, Eloi}, Booktitle = {Proceedings of the International Symposium on Music Information Retrieval}, Title = {Statistical Significance in Song-Spotting in Audio}, Year = {2001}} @inbook{MV_KH01, Address = {Hamburg, Germany}, Author = {Kaltenbrunner, Martin and Huxor, Avon}, Chapter = {Marvin: Supporting Awareness through Audio in Collaborative Virtual Environments}, Editor = {Earnshaw, Rae and Vince, John}, Pages = {294ff}, Publisher = {Springer Verlag}, Title = {Digital Content Creation}, Year = {2001}} @inproceedings{MV_KH00, Address = {Delft, Netherlands}, Author = {Kaltenbrunner, Martin and Huxor, Avon}, Booktitle = {Proceedings of PRESENCE 2000, 3rd International Workshop on Presence}, Title = {Multiple Presence through Auditory Bots in Virtual Environments}, Year = {2000}} @mastersthesis{KAL2000, Address = {Austria}, Author = {Kaltenbrunner, Martin}, School = {FH Hagenberg}, Title = {Auditory User Interfaces for Desktop, Mobile and Embedded Applications}, Year = {2000}}