Difference between revisions of "Template:Score Vizualizations"
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===Music Animation Machine=== | ===Music Animation Machine=== | ||
− | [https://en.wikipedia.org/wiki/Stephen_Malinowski Stephen Malinowski]'s Music Animation Machine (MAM) is well-known in computer-music circles but is underutilized in classrooms, where its value transcends diverse levels of education and musical training. Originating in California in 1985 and continuously improved ever since, it works like a video-camera for the inner workings of music fabric. It presents a wide range of geometrical objects moving across the viewer's screen. Depend on its settings it can emphasize relationships between pitches, harmonies, rhythmic values, loudness, and so forth. Viewers will find rhythmic patterns and contrapuntal refinements of the music being viewed hard to miss. Although MAM was originally dependent on MIDI, it has been retooled to work in live concert settings. Malinowski's Youtube channel ([https://www.youtube.com/user/smalin smalin]) offers the best current (graphical) lexicon of its offerings, but other MAM websites include the [http://www.musanim.com/mam/mamhist.htm history of its gestation and development], [http://www.musanim.com/player/ freeware] (Windows only), sample files (ibid), and [http://www.musanim.com/all/ miscellaneous] items. | + | [https://en.wikipedia.org/wiki/Stephen_Malinowski Stephen Malinowski]'s Music Animation Machine (MAM) is well-known in computer-music circles but is underutilized in classrooms, where its value transcends diverse levels of education and musical training. Originating in California in 1985 and continuously improved ever since, it works like a video-camera for the inner workings of music fabric. It presents a wide range of geometrical objects moving across the viewer's screen. Depend on its settings it can emphasize relationships between pitches, harmonies, rhythmic values, loudness, and so forth. Viewers will find rhythmic patterns and contrapuntal refinements of the music being viewed hard to miss. Although MAM was originally dependent on MIDI, it has been retooled to work in live concert settings. Malinowski's Youtube channel ([https://www.youtube.com/user/smalin smalin]) offers the best current (graphical) lexicon of its offerings, but other MAM websites include the [http://www.musanim.com/mam/mamhist.htm history of its gestation and development], [http://www.musanim.com/player/ freeware] (Windows only), sample files (ibid), works listed by [collaborator http://www.musanim.com/Collaborators/] and [http://www.musanim.com/all/ miscellaneous] items. MAM also has listings by collection and composer. See [The Well-Tempered Clavier http://www.musanim.com/WTC/]. |
An ongoing catalog of animated graphical scores is available at [http://www.musanim.com/MusicWorthWatching/ Music Worth Watching]. Over time the methods of varieties of visualization have increased to better accommodate the wide array of moods that will be "seen" from piece to piece. | An ongoing catalog of animated graphical scores is available at [http://www.musanim.com/MusicWorthWatching/ Music Worth Watching]. Over time the methods of varieties of visualization have increased to better accommodate the wide array of moods that will be "seen" from piece to piece. | ||
+ | |||
+ | For more information on graphical methods, see [Music Animation Screen Renderers http://www.musanim.com/Renderers/]. | ||
===Ptolemaic: Musical Visualization and Analysis=== | ===Ptolemaic: Musical Visualization and Analysis=== |
Revision as of 23:29, 21 July 2022
Contents
KeyScapes
Craig Sapp's KeyScapes are visualizations of harmonic structure. Sapp began to develop them as a graduate student at the Center for Computer Research in Music and Acoustics at Stanford University in the late 1990s. Although keyscapes are useful in giving a synoptic view of the harmonic structure of single movements and/or works, their use in the aggregate indicates many changes over time.
The initial Tonal Landscape Gallery gives a brief visual introduction. Here, for example, is a table of keyscapes representing each movement of the 32 Beethoven piano sonatas. Tonal architectures between movements of single works and changes in this relationship are particularly visible.
For large-scale comparison functional (relative) harmony (divorced from a specific key) proves more useful than exact-pitch (absolute) mapping, as this representation of the same Beethoven sonatas shows.
Every piece at Sapp's KernScores website provides a virtual keyscape that may be absolute or relative. In movements with repeats, the user may select a view with or without repeats included. Sapp's doctoral thesis (2011) show extensive comparisons. In other writings he has used the same technique to discover biases in multiple approaches to harmonic analysis used today.
Music Animation Machine
Stephen Malinowski's Music Animation Machine (MAM) is well-known in computer-music circles but is underutilized in classrooms, where its value transcends diverse levels of education and musical training. Originating in California in 1985 and continuously improved ever since, it works like a video-camera for the inner workings of music fabric. It presents a wide range of geometrical objects moving across the viewer's screen. Depend on its settings it can emphasize relationships between pitches, harmonies, rhythmic values, loudness, and so forth. Viewers will find rhythmic patterns and contrapuntal refinements of the music being viewed hard to miss. Although MAM was originally dependent on MIDI, it has been retooled to work in live concert settings. Malinowski's Youtube channel (smalin) offers the best current (graphical) lexicon of its offerings, but other MAM websites include the history of its gestation and development, freeware (Windows only), sample files (ibid), works listed by [collaborator http://www.musanim.com/Collaborators/] and miscellaneous items. MAM also has listings by collection and composer. See [The Well-Tempered Clavier http://www.musanim.com/WTC/].
An ongoing catalog of animated graphical scores is available at Music Worth Watching. Over time the methods of varieties of visualization have increased to better accommodate the wide array of moods that will be "seen" from piece to piece.
For more information on graphical methods, see [Music Animation Screen Renderers http://www.musanim.com/Renderers/].
Ptolemaic: Musical Visualization and Analysis
Website: Ptolemaic: A computer application for musical visualization and analysis
This set of software tools displays dynamic renderings of music in relation to several concepts from music-theory: pitch class, tonal pitch-space, and functional harmonic analysis. Tools are freely downloadable.
TimeScapes
Craig Sapp's TimeScapes facilitate rapid comparison of differences in timing in recorded performances. They have played a major role in his work with the CHARM Mazurka Project directed by Nicholas Cook (2005-07). Companion software tools are available through the Sonic Visualizer website. The TimeScape concept is derived from Sapp's earlier work on KeyScapes (see above).