wifi-densepose/rust-port/wifi-densepose-rs/crates
rUv 2b8a7cc458
feat: happiness scoring pipeline + ESP32 swarm with Cognitum Seed (#285)
* feat: happiness scoring pipeline with ESP32 swarm + Cognitum Seed coordinator

ADR-065: Hotel guest happiness scoring from WiFi CSI physiological proxies.
ADR-066: ESP32 swarm with Cognitum Seed as coordinator for multi-zone analytics.

Firmware:
- swarm_bridge.c/h: FreeRTOS task on Core 0, HTTP client with Bearer auth,
  registers with Seed, sends heartbeats (30s) and happiness vectors (5s)
- nvs_config: seed_url, seed_token, zone_name, swarm intervals
- provision.py: --seed-url, --seed-token, --zone CLI args
- esp32-hello-world: capability discovery firmware for 4MB ESP32-S3 variant

WASM edge modules:
- exo_happiness_score.rs: 8-dim happiness vector from gait speed, stride
  regularity, movement fluidity, breathing calm, posture, dwell time
  (events 690-694, 11 tests, ESP32-optimized buffers + event decimation)
- ghost_hunter.rs standalone binary: 5.7 KB WASM, feature-gated default pipeline

RuView Live:
- --mode happiness dashboard with bar visualization
- --seed flag for Cognitum Seed bridge (urllib, background POST)
- HappinessScorer + SeedBridge classes (stdlib only, no deps)

Examples:
- seed_query.py: CLI tool (status, search, witness, monitor, report)
- provision_swarm.sh: batch provisioning for multi-node deployment
- happiness_vector_schema.json: 8-dim vector format documentation

Verified live: ESP32 on COM5 (4MB flash) registered with Seed at 10.1.10.236,
vectors flowing, witness chain growing (epoch 455, chain 1108).

Co-Authored-By: claude-flow <ruv@ruv.net>

* ci: raise firmware binary size gate to 1100 KB for HTTP client stack

The swarm bridge (ADR-066) adds esp_http_client for Seed communication,
which pulls in the HTTP/TLS stack (~150 KB). Binary grew from ~978 KB to
~1077 KB. Raise the gate from 950 KB to 1100 KB. Still fits comfortably
in both 4MB (1856 KB OTA slot, 43% free) and 8MB flash variants.

Co-Authored-By: claude-flow <ruv@ruv.net>
2026-03-20 18:46:34 -04:00
..
ruv-neural ruv-neural: publish 11 crates to crates.io — full implementation, no stubs 2026-03-09 10:52:24 -04:00
wifi-densepose-api feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00
wifi-densepose-cli chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-config feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00
wifi-densepose-core feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00
wifi-densepose-db feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00
wifi-densepose-desktop chore: add runtime artifacts to .gitignore and untrack them 2026-03-14 13:44:27 -04:00
wifi-densepose-hardware fix: security hardening — replace fake HMAC, add path traversal protection, OTA auth (ADR-050) 2026-03-06 13:11:04 -05:00
wifi-densepose-mat chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-nn remove unused once-cell package 2026-03-01 14:26:29 +07:00
wifi-densepose-ruvector chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-sensing-server fix: security hardening — replace fake HMAC, add path traversal protection, OTA auth (ADR-050) 2026-03-06 13:11:04 -05:00
wifi-densepose-signal chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-train chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-vitals feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00
wifi-densepose-wasm chore: bump workspace to v0.3.0 and publish 15 crates to crates.io 2026-03-02 08:39:23 -05:00
wifi-densepose-wasm-edge feat: happiness scoring pipeline + ESP32 swarm with Cognitum Seed (#285) 2026-03-20 18:46:34 -04:00
wifi-densepose-wifiscan feat(wifiscan): add Rust macOS + Linux adapters, fix Python byte counters 2026-03-01 10:51:45 -05:00
README.md feat: ADR-024 Contrastive CSI Embedding Model — all 7 phases (#52) 2026-03-01 01:44:38 -05:00

README.md

WiFi-DensePose Rust Crates

License: MIT OR Apache-2.0 Rust 1.85+ Workspace RuVector v2.0.4 Tests

See through walls with WiFi. No cameras. No wearables. Just radio waves.

A modular Rust workspace for WiFi-based human pose estimation, vital sign monitoring, and disaster response using Channel State Information (CSI). Built on RuVector graph algorithms and the WiFi-DensePose research platform by rUv.


Performance

Operation Python v1 Rust v2 Speedup
CSI Preprocessing ~5 ms 5.19 us ~1000x
Phase Sanitization ~3 ms 3.84 us ~780x
Feature Extraction ~8 ms 9.03 us ~890x
Motion Detection ~1 ms 186 ns ~5400x
Full Pipeline ~15 ms 18.47 us ~810x
Vital Signs N/A 86 us (11,665 fps) --

Crate Overview

Core Foundation

Crate Description crates.io
wifi-densepose-core Types, traits, and utilities (CsiFrame, PoseEstimate, SignalProcessor) crates.io
wifi-densepose-config Configuration management (env, TOML, YAML) crates.io
wifi-densepose-db Database persistence (PostgreSQL, SQLite, Redis) crates.io

Signal Processing & Sensing

Crate Description RuVector Integration crates.io
wifi-densepose-signal SOTA CSI signal processing (6 algorithms from SpotFi, FarSense, Widar 3.0) ruvector-mincut, ruvector-attn-mincut, ruvector-attention, ruvector-solver crates.io
wifi-densepose-vitals Vital sign extraction: breathing (6-30 BPM) and heart rate (40-120 BPM) -- crates.io
wifi-densepose-wifiscan Multi-BSSID WiFi scanning for Windows-enhanced sensing -- crates.io

Neural Network & Training

Crate Description RuVector Integration crates.io
wifi-densepose-nn Multi-backend inference (ONNX, PyTorch, Candle) with DensePose head (24 body parts) -- crates.io
wifi-densepose-train Training pipeline with MM-Fi dataset, 114->56 subcarrier interpolation All 5 crates crates.io

Disaster Response

Crate Description RuVector Integration crates.io
wifi-densepose-mat Mass Casualty Assessment Tool -- survivor detection, triage, multi-AP localization ruvector-solver, ruvector-temporal-tensor crates.io

Hardware & Deployment

Crate Description crates.io
wifi-densepose-hardware ESP32, Intel 5300, Atheros CSI sensor interfaces (pure Rust, no FFI) crates.io
wifi-densepose-wasm WebAssembly bindings for browser-based disaster dashboard crates.io
wifi-densepose-sensing-server Axum server: ESP32 UDP ingestion, WebSocket broadcast, sensing UI crates.io

Applications

Crate Description crates.io
wifi-densepose-api REST + WebSocket API layer crates.io
wifi-densepose-cli Command-line tool for MAT disaster scanning crates.io

Architecture

                          wifi-densepose-core
                         (types, traits, errors)
                                  |
              +-------------------+-------------------+
              |                   |                   |
    wifi-densepose-signal   wifi-densepose-nn   wifi-densepose-hardware
    (CSI processing)        (inference)         (ESP32, Intel 5300)
    + ruvector-mincut       + ONNX Runtime          |
    + ruvector-attn-mincut  + PyTorch (tch)   wifi-densepose-vitals
    + ruvector-attention    + Candle          (breathing, heart rate)
    + ruvector-solver            |
              |                  |             wifi-densepose-wifiscan
              +--------+---------+            (BSSID scanning)
                       |
          +------------+------------+
          |                         |
  wifi-densepose-train    wifi-densepose-mat
  (training pipeline)     (disaster response)
  + ALL 5 ruvector        + ruvector-solver
                          + ruvector-temporal-tensor
                                |
              +-----------------+-----------------+
              |                 |                 |
    wifi-densepose-api  wifi-densepose-wasm  wifi-densepose-cli
    (REST/WS)           (browser WASM)       (CLI tool)
              |
    wifi-densepose-sensing-server
    (Axum + WebSocket)

RuVector Integration

All RuVector crates at v2.0.4 from crates.io:

RuVector Crate Used In Purpose
ruvector-mincut signal, train Dynamic min-cut for subcarrier selection & person matching
ruvector-attn-mincut signal, train Attention-weighted min-cut for antenna gating & spectrograms
ruvector-temporal-tensor train, mat Tiered temporal compression (4-10x memory reduction)
ruvector-solver signal, train, mat Sparse Neumann solver for interpolation & triangulation
ruvector-attention signal, train Scaled dot-product attention for spatial features & BVP

Signal Processing Algorithms

Six state-of-the-art algorithms implemented in wifi-densepose-signal:

Algorithm Paper Year Module
Conjugate Multiplication SpotFi (SIGCOMM) 2015 csi_ratio.rs
Hampel Filter WiGest 2015 hampel.rs
Fresnel Zone Model FarSense (MobiCom) 2019 fresnel.rs
CSI Spectrogram Standard STFT 2018+ spectrogram.rs
Subcarrier Selection WiDance (MobiCom) 2017 subcarrier_selection.rs
Body Velocity Profile Widar 3.0 (MobiSys) 2019 bvp.rs

Quick Start

As a Library

use wifi_densepose_core::{CsiFrame, CsiMetadata, SignalProcessor};
use wifi_densepose_signal::{CsiProcessor, CsiProcessorConfig};

// Configure the CSI processor
let config = CsiProcessorConfig::default();
let processor = CsiProcessor::new(config);

// Process a CSI frame
let frame = CsiFrame { /* ... */ };
let processed = processor.process(&frame)?;

Vital Sign Monitoring

use wifi_densepose_vitals::{
    CsiVitalPreprocessor, BreathingExtractor, HeartRateExtractor,
    VitalAnomalyDetector,
};

let mut preprocessor = CsiVitalPreprocessor::new(56); // 56 subcarriers
let mut breathing = BreathingExtractor::new(100.0);    // 100 Hz sample rate
let mut heartrate = HeartRateExtractor::new(100.0);

// Feed CSI frames and extract vitals
for frame in csi_stream {
    let residuals = preprocessor.update(&frame.amplitudes);
    if let Some(bpm) = breathing.push_residuals(&residuals) {
        println!("Breathing: {:.1} BPM", bpm);
    }
}

Disaster Response (MAT)

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

let config = DisasterConfig {
    disaster_type: DisasterType::Earthquake,
    max_scan_zones: 16,
    ..Default::default()
};

let mut responder = DisasterResponse::new(config);
responder.add_scan_zone(zone)?;
responder.start_continuous_scan().await?;

Hardware (ESP32)

use wifi_densepose_hardware::{Esp32CsiParser, CsiFrame};

let parser = Esp32CsiParser::new();
let raw_bytes: &[u8] = /* UDP packet from ESP32 */;
let frame: CsiFrame = parser.parse(raw_bytes)?;
println!("RSSI: {} dBm, {} subcarriers", frame.metadata.rssi, frame.subcarriers.len());

Training

# Check training crate (no GPU needed)
cargo check -p wifi-densepose-train --no-default-features

# Run training with GPU (requires tch/libtorch)
cargo run -p wifi-densepose-train --features tch-backend --bin train -- \
    --config training.toml --dataset /path/to/mmfi

# Verify deterministic training proof
cargo run -p wifi-densepose-train --features tch-backend --bin verify-training

Building

# Clone the repository
git clone https://github.com/ruvnet/wifi-densepose.git
cd wifi-densepose/rust-port/wifi-densepose-rs

# Check workspace (no GPU dependencies)
cargo check --workspace --no-default-features

# Run all tests
cargo test --workspace --no-default-features

# Build release
cargo build --release --workspace

Feature Flags

Crate Feature Description
wifi-densepose-nn onnx (default) ONNX Runtime backend
wifi-densepose-nn tch-backend PyTorch (libtorch) backend
wifi-densepose-nn candle-backend Candle (pure Rust) backend
wifi-densepose-nn cuda CUDA GPU acceleration
wifi-densepose-train tch-backend Enable GPU training modules
wifi-densepose-mat ruvector (default) RuVector graph algorithms
wifi-densepose-mat api (default) REST + WebSocket API
wifi-densepose-mat distributed Multi-node coordination
wifi-densepose-mat drone Drone-mounted scanning
wifi-densepose-hardware esp32 ESP32 protocol support
wifi-densepose-hardware intel5300 Intel 5300 CSI Tool
wifi-densepose-hardware linux-wifi Linux commodity WiFi
wifi-densepose-wifiscan wlanapi Windows WLAN API async scanning
wifi-densepose-core serde Serialization support
wifi-densepose-core async Async trait support

Testing

# Unit tests (all crates)
cargo test --workspace --no-default-features

# Signal processing benchmarks
cargo bench -p wifi-densepose-signal

# Training benchmarks
cargo bench -p wifi-densepose-train --no-default-features

# Detection benchmarks
cargo bench -p wifi-densepose-mat

Supported Hardware

Hardware Crate Feature CSI Subcarriers Cost
ESP32-S3 Mesh (3-6 nodes) hardware/esp32 52-56 ~$54
Intel 5300 NIC hardware/intel5300 30 ~$50
Atheros AR9580 hardware/linux-wifi 56 ~$100
Any WiFi (Windows/Linux) wifiscan RSSI-only $0

Architecture Decision Records

Key design decisions documented in docs/adr/:

ADR Title Status
ADR-014 SOTA Signal Processing Accepted
ADR-015 MM-Fi + Wi-Pose Training Datasets Accepted
ADR-016 RuVector Training Pipeline Accepted (Complete)
ADR-017 RuVector Signal + MAT Integration Accepted
ADR-021 Vital Sign Detection Pipeline Accepted
ADR-022 Windows WiFi Enhanced Sensing Accepted
ADR-024 Contrastive CSI Embedding Model Accepted
  • WiFi-DensePose -- Main repository (Python v1 + Rust v2)
  • RuVector -- Graph algorithms for neural networks (5 crates, v2.0.4)
  • rUv -- Creator and maintainer

License

All crates are dual-licensed under MIT OR Apache-2.0.

Copyright (c) 2024 rUv