VirtualFlute: Difference between revisions
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[[Week 4]] | [[Week 4]] | ||
Installed JUCE and got a basic program with a workable interface (1 slider for air speed) | Installed JUCE and got a basic program with a workable interface (1 slider for air speed)! | ||
[[Week 5]] | [[Week 5]] | ||
Looking into DSP in JUCE (shying away from STK). | Looking into DSP in JUCE (shying away from STK). Beginning to implement block diagrams from scratch! | ||
[[Week 6]] | [[Week 6]] | ||
Testing Helmholtz resonators as an input source. | Implemented the block diagram in JUCE and got working sound output. However, found that I am not satisfied with any of the existing flute physical modeling approaches! | ||
[[Week 7]] | |||
Reading into the fundamental physics of flute acoustics, including pitch-synchronous pulsed noise: https://ccrma.stanford.edu/files/papers/stanm61.pdf. Testing Helmholtz resonators as an input source! | |||
[[Week 8]] | |||
Could not find better alternative to white noise as the input. Now shifting focus to experimenting with excitations at different harmonics! | |||
[[Week 9]] | |||
Continuing to refine model, including adding linearly interpolating delay lines. Mapped single input parameter of air speed to flute model parameters! | |||
[[Week 10]] | |||
Presented the project! | |||
Latest revision as of 10:08, 16 June 2019
Week 2 Enrolled in the class!
Week 3 I've been looking at flute physical modeling and existing block diagram implementations: http://www.music.mcgill.ca/~gary/courses/projects/618_2018/Gomez_ProjectReport.pdf. Also installed STK and implemented its flute model!
Week 4 Installed JUCE and got a basic program with a workable interface (1 slider for air speed)!
Week 5 Looking into DSP in JUCE (shying away from STK). Beginning to implement block diagrams from scratch!
Week 6 Implemented the block diagram in JUCE and got working sound output. However, found that I am not satisfied with any of the existing flute physical modeling approaches!
Week 7 Reading into the fundamental physics of flute acoustics, including pitch-synchronous pulsed noise: https://ccrma.stanford.edu/files/papers/stanm61.pdf. Testing Helmholtz resonators as an input source!
Week 8 Could not find better alternative to white noise as the input. Now shifting focus to experimenting with excitations at different harmonics!
Week 9 Continuing to refine model, including adding linearly interpolating delay lines. Mapped single input parameter of air speed to flute model parameters!
Week 10 Presented the project!