Biologically-similar and other figures in max m.s.p patch collages I have made, featuring "the correlation phase scope" designed by h.zimmerman, in max m.s.p, with some additional modules).

An artistic practice creating and making representational, biosimilar, euclidean, and motion-therblig or spatial-dynamic-therblig style lissajous figures in a differential phase scope matrix (the "correlation phase scope" designed by h.zimmerman, in max m.s.p, with some additional modules):

During my study at the Sonic Arts Research Centre, Belfast, during the masters of research in sonic arts course there, during 2019-present, I have explored various interconnected areas of generative art, utilising the concepts of mechanics and surfaces.

I have attempted to create some generative art in the area of "generatively biosimilar" or "biologically-similar" visual output, using signals, so, viewable when those signals are input into audio metering processes and their display matrices.

I started by working with the granular restructuring v.s.t plugin "dfx scrubby" this allowed for signal re-processing that led to various biologically-similar or bio-similar forms being viewable when the audio was then processed, spectrally.

https://www.youtube.com/watch?v=t97JMTdCn9g

I also looked at an "image to spectral" conversion of the parthenon at that time:

https://www.youtube.com/watch?v=2_0n0BF_JTU

I moved on to an attempt to create "representational", "biosimilar", "euclidean geometric", and "motion-therblig or spatial-dynamic-therblig" style lissajous figures in a differential phase scope matrix in max m.s.p (the "correlation phase scope" designed by h.zimmerman, was used in max m.s.p patch deign or collage, with some additional modules).

Here supplied below is a revised patch for hosting differential signal pairs (these can be stored in mp4 or similar formats, and played back by dragging and dropping them into this patch) and recording their "musifications" after conversion of the phase scope jitter matrix to list data with jit.spill, and then to midi, and oscillator actuations (two xylophone style polyphonic voices, and a sawtooth polyphonic voice).

This patch can be used to see, and functionally playback differentially in real-time in the "correlation phase scope jitter matrix" designed by h.zimmerman :

My corpus of:

Phase scope signal pairs I designed with matrix visual content, (representational, biologically-similar, euclidean geometric or platonic solid style forms, and "motion-therblig or spatial-dynamic-therblig" style lissajous figures,

and phase scope signal pairs I designed to generate recallable "musifications", actuated with the oscillator voices (much like a player piano),

The audio signals are hosted in ".mp4" and ".avi" format, with no video content, this has proven reliable for use with the "avplayr" module in max m.s.p, the patch has routing wherby only the audio output of the "avplayr" module is routed to the "correlation phase scope" inputs, and then processed differentially for display in it's jitter matrix visual output:

Most of my research corpus will be made available this week or so (11 june 2021) at my google drive account here the rest should be online after the 28th june 2021:

Dennis O'Keeffe masters of research in sonic arts corpus 2019-2021:
https://drive.google.com/drive/folders/11kRIaHKelxQlf6PzM4N7XldoF84nROpg?usp=sharing