Title | A Low-level Embedded Service Architecture for Rapid DIY Design of Real-time Musical Instruments |
Publication Type | Conference Proceedings |
Year of Publication | 2009 |
Authors | Schmeder, Andrew [1], and Freed Adrian [2] |
Refereed Designation | Refereed |
Conference Name | NIME 2009 |
Date Published | 04/06/2009 |
Abstract | An on-the-fly reconfigurable low-level embedded service architecture is presented as a means to improve scalability, improve conceptual comprehensibility, reduce human error and reduce development time when designing new sensor-based electronic musical instruments with real-time responsiveness. The implementation of the concept in a project called micro-OSC is described. Other sensor interfacing products are evaluated in the context of DIY prototyping of musical instruments. The capabilities of the micro-OSC platform are demonstrated through a set of examples including resistive sensing, mixed digital-analog systems, many-channel sensor interfaces and time-based measurement methods. |
URL | http://cnmat.berkeley.edu/node/6902 [3] |
Links:
[1] http://www.adrianfreed.com/Publications/author/1
[2] http://www.adrianfreed.com/Publications/author/2
[3] http://cnmat.berkeley.edu/node/6902
[4] http://www.adrianfreed.com/category/creations/conventions-and-encodings/osc
[5] http://www.adrianfreed.com/category/exhibitions-and-presentations/nime