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wifi-densepose/crates/ruvector-nervous-system/src/dendrite/plateau.rs
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//! Dendritic plateau potential for behavioral timescale synaptic plasticity
//!
//! Implements a plateau potential that:
//! - Activates when NMDA threshold is reached
//! - Lasts 100-500ms (behavioral timescale)
//! - Provides temporal credit assignment signal for BTSP
/// Dendritic plateau potential
#[derive(Debug, Clone)]
pub struct PlateauPotential {
/// Duration of plateau in milliseconds
duration_ms: f32,
/// Time remaining in current plateau (ms)
time_remaining: f32,
/// Amplitude of plateau (0.0-1.0)
amplitude: f32,
/// Whether plateau is currently active
active: bool,
}
impl PlateauPotential {
/// Create a new plateau potential with specified duration
///
/// # Arguments
/// * `duration_ms` - Duration of plateau in milliseconds (typically 100-500ms)
pub fn new(duration_ms: f32) -> Self {
Self {
duration_ms,
time_remaining: 0.0,
amplitude: 0.0,
active: false,
}
}
/// Trigger the plateau potential
///
/// Initiates a plateau with full amplitude and resets the timer
pub fn trigger(&mut self) {
self.active = true;
self.time_remaining = self.duration_ms;
self.amplitude = 1.0;
}
/// Update plateau state
///
/// Decrements timer and updates amplitude. Deactivates when time expires.
///
/// # Arguments
/// * `dt` - Time step in milliseconds
pub fn update(&mut self, dt: f32) {
if !self.active {
return;
}
self.time_remaining -= dt;
if self.time_remaining <= 0.0 {
// Plateau expired
self.active = false;
self.amplitude = 0.0;
self.time_remaining = 0.0;
} else {
// Maintain amplitude during plateau
// Could implement decay here if needed
self.amplitude = 1.0;
}
}
/// Check if plateau is currently active
pub fn is_active(&self) -> bool {
self.active
}
/// Get current amplitude (0.0-1.0)
pub fn amplitude(&self) -> f32 {
self.amplitude
}
/// Get time remaining in plateau (ms)
pub fn time_remaining(&self) -> f32 {
self.time_remaining
}
/// Reset plateau to inactive state
pub fn reset(&mut self) {
self.active = false;
self.amplitude = 0.0;
self.time_remaining = 0.0;
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_plateau_creation() {
let plateau = PlateauPotential::new(200.0);
assert!(!plateau.is_active());
assert_eq!(plateau.amplitude(), 0.0);
}
#[test]
fn test_plateau_trigger() {
let mut plateau = PlateauPotential::new(200.0);
plateau.trigger();
assert!(plateau.is_active());
assert_eq!(plateau.amplitude(), 1.0);
assert_eq!(plateau.time_remaining(), 200.0);
}
#[test]
fn test_plateau_duration() {
let mut plateau = PlateauPotential::new(100.0);
plateau.trigger();
// Update 50ms
plateau.update(50.0);
assert!(plateau.is_active());
assert_eq!(plateau.time_remaining(), 50.0);
// Update another 60ms - should expire
plateau.update(60.0);
assert!(!plateau.is_active());
assert_eq!(plateau.amplitude(), 0.0);
}
#[test]
fn test_plateau_maintains_amplitude() {
let mut plateau = PlateauPotential::new(200.0);
plateau.trigger();
// Amplitude should remain at 1.0 during active period
for _ in 0..10 {
plateau.update(10.0);
if plateau.is_active() {
assert_eq!(plateau.amplitude(), 1.0);
}
}
}
#[test]
fn test_plateau_reset() {
let mut plateau = PlateauPotential::new(200.0);
plateau.trigger();
plateau.update(50.0);
plateau.reset();
assert!(!plateau.is_active());
assert_eq!(plateau.amplitude(), 0.0);
assert_eq!(plateau.time_remaining(), 0.0);
}
#[test]
fn test_update_inactive_plateau() {
let mut plateau = PlateauPotential::new(200.0);
// Should do nothing when inactive
plateau.update(10.0);
assert!(!plateau.is_active());
assert_eq!(plateau.amplitude(), 0.0);
}
}
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