6/24/2023 0 Comments Android like ivoxelAnd then invested a month into pure work m, research, testing. I’ve had to wait until 2019 to start preparing a plan for this video. But back in 2014 there weren’t enough Vocoders. I’ve always wanted to do a video like this. Yeah this one took a few years to prepare. Good that video is insanely good fun, but also actually a very catchy track, enjoyed this a lot.Īnd great video wow, so much damn time you must put into these, thanks a lot, □□ Sick amount of work that went into that video man. I quite liked making the voxels, but they’re a bit time consuming (hence just the middle eight). The middle eight is a complicated sequence of voxel parametric phrases. The verse vocoding is straight iVoxel as a normal vocoder. I also.īack in the days I used it a lot on this: That means you can impart loop points, etc, and in theory also stretch and expand the spectral trails as much as you like with no penalty – it’s now just a lot of parameters, not any kind of repeating audio waveform as the original pre-analysed audio input said:Įxcellent vid, watched it earlier today. All the app needs to do is take a record of those spectral trails as simple parametric data, not audio. Here, we’d be using the frequency-domain parameter data as much longer one-shot ‘tracks’ of energy distribution across the frequency domain, with the intention to apply a vocoding template energy signals you’d normally get in real time from the analysis side of a vocoder). The difference in those apps is that the frequency plot shows a wavetable intended to be repetitively read out at an audio rate. This is also related to what you see in Nave, and Poseidon, in their frequency domain views. (the frequency-domain = a view of the relative levels of frequency distribution – typically as spectral peaks, little lines going up from zero, as opposed to time-domain which shows you the relative levels of amplitude across the progression of time, such as you’re used to seeing in the normal way you see audio waveforms) Drag for slides and vibrato.The iVoxel voxels seem to me to be parameter rather than audio-based, in that if you did a frequency-domain analysis across periods of time, you’d get a spectral graph of energy currently occurring at various frequencies, which is sort of what you need anyway with the analysis side of a vocoder. Play your vocoded voice live on keyboard.Nearly 300 prerecorded voxels included.Pitch Follower and automatic tuning correction to selectable scale.Realtime analysis/resynthesis of your voice.The output of your creations can be recorded to an audio file which you can use with other Apps and programs for further processing. The carrier signal and the vocal signal can now be fed by any Audiobus compatible Apps. iVoxel is Audiobus compatible and can be used in the Input, Filter and Output slots in the Audiobus signal chain. Nearly 300 hundred prerecorded voxels are already included. Then use this voxel to play with your own voice on the keyboard or with the build in sequencer. Use it to sing over your favorite iTunes song ! Record the analyzed spectrum of phrases and words from your own voice. The sound character of your voice can be changed in many different aspects like pitch, gender or breath noise. You can use iVoxel in many different ways: As a realtime vocoder talking into the microphone while playing tunes on the keyboard. The pitch follower and automatic tuning let you sing correct to a selectable scale. The channel filters used by iVoxel are based on the Sennheiser Vocoder VSM201 resulting in a rich and fat analogue sound characteristic. The vocoder part is based on the Matrix vocoder from VirSyn used by many famous artists - one of them the well known german group Kraftwerk. iVoxel is a combination of a voice optimized synthesizer and a vocoder. IVoxel is not only an amazingly sounding vocoder - the unique concept of iVoxel turns this vocoder into a singing machine.
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