Description
This node applies a Kalman Filter to the value on its input.
Kalman FIltering:https://en.wikipedia.org/wiki/Kalman_filter, also known as linear quadratic estimation (LQE) is an algorithm that produces estimates using a series of measurements over time effectively filtering noise or smoothing a jittery signal input.
Because this algorithm produces estimates it relies on iterations of prediction-measurement cycles.
Properties
Process noise
: Affects the weight of predictions in the algorithm. Lower values (<0.1) will give smoother signals but less accurate predictions. Prefer values between 0 and 0.1.
Default : 0.01
Measurement noise
: Affects the weight of measures in the algorithm. Higher values (>10) will give smoother signals but less accurate values.
Default : 5.0
Error cov. post
: Affects uncertainty in the initialisation of the algorithm. If your starting position is accurate, prefer lower values. If not, prefer higher values.
Default : 0.1
Delay
: Useful when compensating for projector input lag. Leave at 0 otherwise. Unit : seconds
Default : 0.0
Force Evaluate
: When toggled ON, will evaluate a prediction even if the input does not change.
Default : OFF
Interpolation
: (Only visible whenForce Evaluate
is OFF) Adds an interpolation to the values based on the algorithm. Unit : milliseconds
Default : 0
Predictions / Measures noise
Process noise and Measurement noise are complimentary properties. One should be rather low while the other is rather high :
- If Process noise is low : we trust the predictions to be accurate, Measurement noise can be higher to reduce noise in our measures.
In this case the output will be smoother but may have a higher latency (delay).
- If Measurement noise is low : we trust our measures to be accurate, Process noise can be higher to reduce noise in the predictions.
In this case the output will have a lower latency but may be noisier (jerk).
Inputs
Name | Type | Description |
---|---|---|
Float | Float | Value to filter |
Outputs
Name | Type | Description |
---|---|---|
Float | Float | Filtered value |
Example
The filter is using default values on all its properties.
Flattening noise
Smoothing a signal
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