Leaky integrator

From HandWiki
A graph of a solution to a leaky integrator; the input changes at T=5.

In mathematics, a leaky integrator equation is a specific differential equation, used to describe a component or system that takes the integral of an input, but gradually leaks a small amount of input over time. It appears commonly in hydraulics, electronics, and neuroscience where it can represent either a single neuron or a local population of neurons.[1][clarification needed]

Equation

The equation is of the form

[math]\displaystyle{ dx/dt = -Ax + C }[/math]

where C is the input and A is the rate of the 'leak'.

General solution

The equation is a nonhomogeneous first-order linear differential equation. For constant C its solution is

[math]\displaystyle{ x(t) = ke^{-At} + \frac{C}{A} }[/math]

where [math]\displaystyle{ k }[/math] is a constant encoding the initial condition.

References

  1. Eliasmith, Anderson, Chris, Charles (2003). Neural Engineering. Cambridge, Massachusetts: MIT Press. pp. 81. ISBN 9780262050715. https://archive.org/details/neuralengineerin00elia_553.