Frequency-Domain Effects

Effect: Tremolo / Vibrato

• Vibrato: Oscillate the pitch of a signal. Resample as an effect (later), or just mess with the instrument

• Tremolo: Oscillate the volume of a signal. Easy effect

• But…: "The tremolo arm on your favorite guitar, for example, is actually a vibrato arm." (source) So these terms are used interchangeably.

Effect: Wah

• Classic frequency-domain effect

• Idea: lowpass filter with variable passband

• Human vocal tract is subtractive via low-pass filters: "ooh" is low-pass, "aah" is less low-pass (note inverse connection to speaker size)

• My sample implementation uses FIR filters

• More typical implementation is with an IIR filter cascade (need to keep number of coefficients small to be able to update the filter in reasonable time). Biquad sections are a popular choice, as here.

• See above for fancy demos

Effect: Flanger / Phaser / Chorus

• Flanger: Mix original signal with varying delay of few ms; creates varying "comb filter" by phase cancellation (Nyquist plugin)

• Phaser: Simulation of flanger using cascade of biquad "all-pass filters" to get multiple phase cancellations. Originally an analog flanger substitute, but different enough to survive (Audacity effect)

• Chorus: Use a multi-tap delay line and vary the tap positions to get varying delay and frequency shift. Less pronounced than ensemble effect (Nyquist plugin)

• These terms are used pretty interchangeably; no standard vocab

Effect: Resampling

• Not normally an "effect": just a thing. We've talked about it in detail.

• As an effect: "sped up" (Chipmunks) or "slowed down" (sleepy) version of the sound

Effect: Frequency Stretching

• Frequency domain equivalent of resampling

• Idea: lengthen or shorten a signal while keeping its harmonic content the same

  • Time domain: Try to find the period of the signal, interpolate whole periods; useful period may be impractically long

  • Frequency domain: Take DFT, scale it up or down (interpolate / decimate in frequency domain), take inverse DFT; Fourier uncertainty is a problem, multiscale is hard

• The difficulty of this plan is why video is time-scaled rather than audio

• AKA pitch-shifting, because pitch is log-frequency, so multiplication becomes addition