Superimposed Recursive Metric Modulation - Rough Draft
A creative based in Los Angeles, CA
It is my intention to posit “superimposed recursive metric modulation” as a musical device used to alter the substructure upon which commonly used rhythmic devices are based.
Metric modulation as such is a change in meter based on a note value from an existing meter. Recursion is a repeating process whose output at each stage is applied as input in the succeeding stage. Thus, recursive metric modulation suggests that through subsequent modulations to closely related meters, distantly related meters can be accessed while maintaining a relationship to the original.
More specifically, the technique I would like to propose is the superimposition of metric modulations over one or more of the preceding iterations to create rhythmic dissonance.
A brief overview of basic rhythmic concepts for sake of clarity in the terms used throughout.
Organization of Time
The organization of time in music can be reduced fundamentally to pulse, tempo, and meter. 1
Each occupies a specific role in the way time is perceived with varying degrees of correlation to one another. When considering a state of modification, all three are highly correlated. Changes to any one results in the perceived alteration of another. However, attempting to abstract the autonomous nature of each, meter appears to be the most agnostic of the three as it can exist as data devoid of tempo and pulse.
Pulse, or beat, is the regularly recurring underlying pulsation we perceive that compels music to progress through time. Pulse makes us react kinesthetically to music. We tap our feet, we dance, we march, or we may just “feel” the pulse internally. In a piece of music, some durational value is assigned to be the pulse and all other durations are proportionally related.
Tempo is the relative speed or rate at which metrical pulses occur over time. Tempo is expressed as either a descriptive term or a metronomic value.
Meter is a ratio that determines which durational value is assigned to represent the fundamental background pulse, how these pulses are grouped together in discrete segments, how these pulses naturally subdivide into lesser durational values, and the relative strength of perceived accents within segments or groupings of pulses.
Meter can be separated into three basic levels: beat level, multiple levels, and division levels. In relation to the beat level, multiples yield slower and quotients faster durational values.
An elementary example being that a value of 1/4 (quarter note) at the beat level multiplied by 2 results in 1/2 (half note), a value at the multiple level; divided by 2 results in 1/8 (eighth note), a value at the division level.
…metric modulation is a technique in which a rhythmic pattern is superposed on another, heterometrically, and then supersedes it and becomes the basic meter. — Nicolas Slonimsky 2
What differentiates a metric modulation from any other tempo change is that the superposed rhythm is based on a note value from the preceding meter, making the duration of the minimal denominator consistent. For example, the superposition of 6/8 over 4/4 yields a consistent 1/8 note value.
The formula for a modulation is:
newTempo / oldTempo = newNumberOfMinDenominator / oldNumberOfMinDenominator.
A process exhibits recursive behavior when the procedure refers to itself. So a distinction must be made between the process and the execution of the process. The Fibonacci sequence is a classic example of recursion as each step requires input from a previous step’s output to be executed.
The process to be iterated:
- Quantify the metric levels in a given meter
- Designate a metric level as the basis for a new grid (beat level)
- Apply an operation to the beat level
Quantify Metric Levels
Quantify the durational values that make up a given meter as the appropriate metric levels.
Designate a Beat Level
Once the existing metric levels have been identified, we can designate a durational value to define the basis for the modulation; referred to here as the beat level.
There are three basic operations that can be applied to a durational value.
Grouping is the process of segmenting lesser values to imply a desired pulse.
Multiply the beat level value to render larger segments of time.
Divide the beat level value to render smaller segments of time.
Here is a simple example to show how a complex rhythmical grid can be achieved with just one iteration of recursivity.
- From a 4/4 meter
- Take the quarter note
- Regroup from 4 into 5
What results is a 5 beat phrase superimposed over 4. The common minimum denominator remaining 1/4.
- From the new 5/4 meter
- Take the length of the 5 note phrase
- Divide by 2
What results is a half note in relation to the downbeat of the 5/4 phrase but something vastly different in relation to the original 4/4 meter.
Example 1 - Video
Step by Step Abstraction
Simple operations can imply complexity. This example shows the step by step abstraction from a common meter in small increments. In western music, we are typically comfortable with operations based on 2 and 3, so all it takes is one unfamiliar prime (5 in this case) to detach a listener’s ear from what is expected and create rhythmic tension.
- Original meter is 4/4
- Divide the entire measure by 5. 1/5 is the beat level
- Multiply 1/5 by 2. 2/5 is the beat level
- Multiply 1/5 by 3. 3/5 is the beat level
- Divide 3/5 by 2. 3/10 is the beat level
Step by Step Abstraction - Video
Apologies. The 3/5 section is incorrectly performed in this video. New video soon.