History

arsen 6ce25cec79 feat(adr-117): process hygiene + pose path honesty + audit sweep Audit fix bundle (10 areas; details in ADR-117 + commit body below). Server (main.rs / wiflow_v1.rs): - UDP receiver filters loopback/multicast/unspecified before NODE_ADDRS registration. Defends against `cargo test` cross-talk that spawned 250+ ping zombies on the production server's :5005 port. - csi_keepalive_task pre-reaps `/sbin/ping -i 0.040` orphans at task entry. macOS doesn't propagate parent death, so killed servers used to leave init-parented pings running indefinitely. - run_wiflow_inference stamps real classifier confidence onto every keypoint (was hardcoded 1.0) — reads 0.037 on live data, honest. - run_wiflow_inference clones only the tail-20 frames inside the lock, not the full 600-deep VecDeque (~270 KB → ~9 KB per tick). - wiflow_v1::build_input_from_history: zero-pad dead channel slots instead of duplicating subcarrier 0 across all of them. Comment said "zero the rest", prior code did the opposite. - GET / now 308-redirects to /ui/index.html; API index moved to /api. UI (ui/index.html, ui/components/LiveDemoTab.js): - <section id="sensing"> gets a <div id="sensing-container"> child so app.js::SensingTab.mount has its mount point. Sensing tab was permanently blank. - LiveDemoTab.fetchModels: only inject WiFlow into the dropdown if no RVF model is already active. Prevents silent flip back to WiFlow after every poll. Tests (multi_node_test.rs): - test_multi_node_udp_send probes 127.0.0.1:5005 first; if bind fails (e.g. a dev server is running), skip the send. Two-layer defense with the server-side filter above. Docs (CHECKLIST.md, ADR-115, espectre-gap-analysis.md, ota-pipeline.md): - CHECKLIST head sha + count refreshed (43→47 Done, head `0ec1e4b0`, ADR range to 001-117 with ADR-111 noted as intentionally absent). - ADR-115 typo fixes: "ADR-100" → "ADR-110" (TP-Link WISP), "ADR-111" → "ADR-109" (AP-MAC tracking actually lives there). - gap-analysis "Still open" table: 8 shipped items annotated with commit hashes; remainder reclassified Deferred with reason. - ota-pipeline.md: new "Operator REST endpoints" section listing /ota/recalibrate (ADR-109) and /ota/set-target (ADR-115) with unauthed + bearer-token curl examples. Verified post-restart: - exactly 2 ping children, both parented to current PID, one per real sensor IP, no 127.0.0.1. - GET / → 308 → /ui/index.html. - /api/v1/info: pose_estimation=true, version 0.3.0. - /api/v1/pose/current: 17 COCO keypoints, confidence 0.037 (real). - cargo test --workspace: 13 passed / 0 failed / 5 ignored. Co-Authored-By: Claude Opus 4.7 <noreply@anthropic.com>		2026-05-17 19:24:04 +07:00
..
src	feat(adr-117): process hygiene + pose path honesty + audit sweep	2026-05-17 19:24:04 +07:00
static	feat(adr-107): progress bar in raw.html calibrate button	2026-05-17 16:34:14 +07:00
tests	feat(adr-117): process hygiene + pose path honesty + audit sweep	2026-05-17 19:24:04 +07:00
Cargo.toml	feat(sensing-server): introspection module skeleton (ADR-099 D1+D7+D8)	2026-05-13 22:50:58 -04:00
README.md	chore(repo): rename rust-port/wifi-densepose-rs → v2/ (flatten to one level) (#427 )	2026-04-25 21:28:13 -04:00

README.md

wifi-densepose-sensing-server

Lightweight Axum server for real-time WiFi sensing with RuVector signal processing.

Overview

wifi-densepose-sensing-server is the operational backend for WiFi-DensePose. It receives raw CSI frames from ESP32 hardware over UDP, runs them through the RuVector-powered signal processing pipeline, and broadcasts processed sensing updates to browser clients via WebSocket. A built-in static file server hosts the sensing UI on the same port.

The crate ships both a library (wifi_densepose_sensing_server) exposing the training and inference modules, and a binary (sensing-server) that starts the full server stack.

Integrates wifi-densepose-wifiscan for multi-BSSID WiFi scanning per ADR-022 Phase 3.

Features

UDP CSI ingestion -- Receives ESP32 CSI frames on port 5005 and parses them into the internal CsiFrame representation.
Vital sign detection -- Pure-Rust FFT-based breathing rate (0.1--0.5 Hz) and heart rate (0.67--2.0 Hz) estimation from CSI amplitude time series (ADR-021).
RVF container -- Standalone binary container format for packaging model weights, metadata, and configuration into a single .rvf file with 64-byte aligned segments.
RVF pipeline -- Progressive model loading with streaming segment decoding.
Graph Transformer -- Cross-attention bottleneck between antenna-space CSI features and the COCO 17-keypoint body graph, followed by GCN message passing (ADR-023 Phase 2). Pure std, no ML dependencies.
SONA adaptation -- LoRA + EWC++ online adaptation for environment drift without catastrophic forgetting (ADR-023 Phase 5).
Contrastive CSI embeddings -- Self-supervised SimCLR-style pretraining with InfoNCE loss, projection head, fingerprint indexing, and cross-modal pose alignment (ADR-024).
Sparse inference -- Activation profiling, sparse matrix-vector multiply, INT8/FP16 quantization, and a full sparse inference engine for edge deployment (ADR-023 Phase 6).
Dataset pipeline -- Training dataset loading and batching.
Multi-BSSID scanning -- Windows netsh integration for BSSID discovery via wifi-densepose-wifiscan (ADR-022).
WebSocket broadcast -- Real-time sensing updates pushed to all connected clients at ws://localhost:8765/ws/sensing.
Static file serving -- Hosts the sensing UI on port 8080 with CORS headers.

Modules

Module	Description
`vital_signs`	Breathing and heart rate extraction via FFT spectral analysis
`rvf_container`	RVF binary format builder and reader
`rvf_pipeline`	Progressive model loading from RVF containers
`graph_transformer`	Graph Transformer + GCN for CSI-to-pose estimation
`trainer`	Training loop orchestration
`dataset`	Training data loading and batching
`sona`	LoRA adapters and EWC++ continual learning
`sparse_inference`	Neuron profiling, sparse matmul, INT8/FP16 quantization
`embedding`	Contrastive CSI embedding model and fingerprint index

Quick Start

# Build the server
cargo build -p wifi-densepose-sensing-server

# Run with default settings (HTTP :8080, UDP :5005, WS :8765)
cargo run -p wifi-densepose-sensing-server

# Run with custom ports
cargo run -p wifi-densepose-sensing-server -- \
    --http-port 9000 \
    --udp-port 5005 \
    --static-dir ./ui

Using as a library

use wifi_densepose_sensing_server::vital_signs::VitalSignDetector;

// Create a detector with 20 Hz sample rate
let mut detector = VitalSignDetector::new(20.0);

// Feed CSI amplitude samples
for amplitude in csi_amplitudes.iter() {
    detector.push_sample(*amplitude);
}

// Extract vital signs
if let Some(vitals) = detector.detect() {
    println!("Breathing: {:.1} BPM", vitals.breathing_rate_bpm);
    println!("Heart rate: {:.0} BPM", vitals.heart_rate_bpm);
}

Architecture

ESP32 ──UDP:5005──> [ CSI Receiver ]
                          |
                    [ Signal Pipeline ]
                    (vital_signs, graph_transformer, sona)
                          |
                    [ WebSocket Broadcast ]
                          |
Browser <──WS:8765── [ Axum Server :8080 ] ──> Static UI files

Crate	Role
`wifi-densepose-wifiscan`	Multi-BSSID WiFi scanning (ADR-022)
`wifi-densepose-core`	Shared types and traits
`wifi-densepose-signal`	CSI signal processing algorithms
`wifi-densepose-hardware`	ESP32 hardware interfaces
`wifi-densepose-wasm`	Browser WASM bindings for the sensing UI
`wifi-densepose-train`	Full training pipeline with ruvector
`wifi-densepose-mat`	Disaster detection module

License

MIT OR Apache-2.0