wifi-densepose/rust-port/wifi-densepose-rs/crates/wifi-densepose-mat

wifi-densepose-mat

Mass Casualty Assessment Tool for WiFi-based disaster survivor detection and localization.

Overview

wifi-densepose-mat uses WiFi Channel State Information (CSI) to detect and locate survivors trapped in rubble, debris, or collapsed structures. The crate follows Domain-Driven Design (DDD) with event sourcing, organized into three bounded contexts -- detection, localization, and alerting -- plus a machine learning layer for debris penetration modeling and vital signs classification.

Use cases include earthquake search and rescue, building collapse response, avalanche victim location, flood rescue operations, and mine collapse detection.

Features

• Vital signs detection -- Breathing patterns, heartbeat signatures, and movement classification with ensemble classifier combining all three modalities.
• Survivor localization -- 3D position estimation through debris via triangulation, depth estimation, and position fusion.
• Triage classification -- Automatic START protocol-compatible triage with priority-based alert generation and dispatch.
• Event sourcing -- All state changes emitted as domain events (DetectionEvent, AlertEvent, ZoneEvent) stored in a pluggable EventStore.
• ML debris model -- Debris material classification, signal attenuation prediction, and uncertainty-aware vital signs classification.
• REST + WebSocket API -- axum-based HTTP API for real-time monitoring dashboards.
• ruvector integration -- ruvector-solver for triangulation math, ruvector-temporal-tensor for compressed CSI buffering.

Feature flags

Flag	Default	Description
std	yes	Standard library support
api	yes	REST + WebSocket API (enables serde for all types)
ruvector	yes	ruvector-solver and ruvector-temporal-tensor
serde	no	Serialization (also enabled by api)
portable	no	Low-power mode for field-deployable devices
distributed	no	Multi-node distributed scanning
drone	no	Drone-mounted scanning (implies distributed)

Quick Start

use wifi_densepose_mat::{
    DisasterResponse, DisasterConfig, DisasterType,
    ScanZone, ZoneBounds,
};

#[tokio::main]
async fn main() -> anyhow::Result<()> {
    let config = DisasterConfig::builder()
        .disaster_type(DisasterType::Earthquake)
        .sensitivity(0.8)
        .build();

    let mut response = DisasterResponse::new(config);

    // Define scan zone
    let zone = ScanZone::new(
        "Building A - North Wing",
        ZoneBounds::rectangle(0.0, 0.0, 50.0, 30.0),
    );
    response.add_zone(zone)?;

    // Start scanning
    response.start_scanning().await?;

    Ok(())
}

Architecture

wifi-densepose-mat/src/
  lib.rs            -- DisasterResponse coordinator, config builder, MatError
  domain/
    survivor.rs     -- Survivor aggregate root
    disaster_event.rs -- DisasterEvent, DisasterType
    scan_zone.rs    -- ScanZone, ZoneBounds
    alert.rs        -- Alert, Priority
    vital_signs.rs  -- VitalSignsReading, BreathingPattern, HeartbeatSignature
    triage.rs       -- TriageStatus, TriageCalculator (START protocol)
    coordinates.rs  -- Coordinates3D, LocationUncertainty
    events.rs       -- DomainEvent, EventStore, InMemoryEventStore
  detection/        -- BreathingDetector, HeartbeatDetector, MovementClassifier, EnsembleClassifier
  localization/     -- Triangulator, DepthEstimator, PositionFuser
  alerting/         -- AlertGenerator, AlertDispatcher, TriageService
  ml/               -- DebrisPenetrationModel, VitalSignsClassifier, UncertaintyEstimate
  api/              -- axum REST + WebSocket router
  integration/      -- SignalAdapter, NeuralAdapter, HardwareAdapter

Related Crates

Crate	Role
wifi-densepose-core	Foundation types and traits
wifi-densepose-signal	CSI preprocessing for detection pipeline
wifi-densepose-nn	Neural inference for ML models
wifi-densepose-hardware	Hardware sensor data ingestion
ruvector-solver	Triangulation and position math
ruvector-temporal-tensor	Compressed CSI buffering

License

MIT OR Apache-2.0