* docs(adr): ADR-151 — Per-Room Calibration & Specialized Model Training
Room-first calibration -> bank of small specialised ruVector models
(breathing, heartbeat, restlessness, posture, presence, anomaly) distilled
from the frozen Hugging-Face-published RF Foundation Encoder (ADR-150).
Four-stage local-first pipeline: baseline (ADR-135 environmental fingerprint)
-> guided enrollment (NEW EnrollmentProtocol, clean anchors not hours) ->
feature extraction (reuse signal_features + ruvsense) -> specialist bank
training (rapid_adapt LoRA heads, RVF storage, HNSW prototypes).
Invariants: specialisation over scale; local heads over a shared public base;
honest STALE degradation on baseline drift. Indexes ADR-149/150/151.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(cli): calibration HTTP API for UI-driven baseline capture (ADR-135/151)
Adds `wifi-densepose calibrate-serve` — an Axum HTTP API that wraps the
ADR-135 CalibrationRecorder so a UI (or any client) can drive an empty-room
baseline capture remotely. Stage 1 ("teach the room") of the ADR-151 room
calibration & training pipeline.
A single background task owns the UDP socket (ESP32 0xC511_0001 frames) and
the optional active recorder; HTTP handlers talk to it over an mpsc command
channel and read a shared status snapshot, keeping the &mut recorder
lock-free. CORS permissive so a browser UI can call it.
Endpoints (/api/v1/calibration/*):
GET /health liveness + UDP ingest stats (frames_seen, streaming)
POST /start { tier?, duration_s?, room_id?, min_frames? }
GET /status live progress (state, frames, progress, z, eta) — poll for UI
POST /stop finalize the current session early
GET /result finalized baseline summary (amp/phase-dispersion averages)
GET /baselines list persisted baseline .bin files
Reuses the existing calibrate.rs ESP32 wire parser (made pub(crate)); honest
abort when <10 frames arrive in the window (e.g. ESP32 not streaming).
Verified end-to-end over loopback: start -> 300 replayed HT20 frames ->
state=complete, 52-subcarrier baseline, phase_dispersion_avg=0.00096
(concentrated/valid), persisted to disk; all 6 endpoints exercised.
CLI: 19 tests pass; crate builds clean.
Co-Authored-By: claude-flow <ruv@ruv.net>
* test(cli): firewall-free CSI UDP relay for local Windows ESP32 testing
Windows Defender blocks inbound LAN UDP to a freshly-built binary without an
admin allow-rule; python.exe is already allowed. This relay binds the public
CSI port and forwards each datagram verbatim to a loopback port where
`calibrate-serve --udp-bind 127.0.0.1 --udp-port 5006` listens (loopback is
firewall-exempt). No admin required.
Validated: ESP32-format 0xC5110001 frames -> :5005 -> relay -> :5006 ->
calibrate-serve -> state=complete, 52-subcarrier baseline,
phase_dispersion_avg=0.00098 (clean). Completes the no-admin live-test path.
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(changelog): record ADR-151 calibration API (calibrate-serve)
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(calibration): ADR-151 Stages 2–5 — enrollment, extraction, specialist bank, runtime
New crate wifi-densepose-calibration implementing the per-room pipeline beyond
Stage-1 baseline:
- anchor.rs: guided-anchor sequence + event-sourced EnrollmentSession (Stage 2)
- enrollment.rs: AnchorQualityGate + AnchorRecorder — gates anchors against the
ADR-135 baseline deviation (presence/motion), re-prompts bad captures
- extract.rs: Features + AnchorFeature — autocorrelation periodicity (breathing/
HR bands), variance/motion (Stage 3)
- specialist.rs: 6 small room-calibrated models — presence (learned threshold),
posture (nearest-prototype), breathing/heartbeat (band periodicity),
restlessness (calm/active normalization), anomaly (novelty vs anchors) (Stage 4)
- bank.rs: SpecialistBank — train/persist + baseline-drift STALE invalidation
- runtime.rs: MixtureOfSpecialists — presence short-circuit + anomaly veto +
stale flagging (Stage 5)
Statistical heads make the pipeline runnable/validatable today; the ADR-150 HF
RF Foundation Encoder backbone is the documented upgrade path. 29 unit tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(cli): wire ADR-151 enroll / train-room / room-status / room-watch
Integrates the wifi-densepose-calibration crate into the CLI as four
subcommands driving the full Stage 2–5 pipeline against a live ESP32 raw-CSI
stream (edge_tier=0):
- enroll: walks the guided anchor sequence, gates each capture against the
ADR-135 baseline deviation (re-prompts bad anchors), writes labelled features
- train-room: fits the SpecialistBank from the enrollment, persists JSON
- room-status: prints a trained bank's summary
- room-watch: live mixture-of-specialists readout (presence/posture/breathing/
heart/restless) over a rolling window, with anomaly veto + STALE flagging
Per-frame scalar is the mean CSI amplitude (carries presence/motion + breathing
modulation). Validated end-to-end on the live ESP32 (COM8, edge_tier=0): the
real parser → feature extraction → runtime detected breathing (~16–31 BPM) on
hardware. Full multi-anchor enrollment accuracy requires the operator to perform
the poses; phase-based breathing extraction is a noted refinement.
48 tests pass (29 calibration + 19 CLI).
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(adr-151): mark Stages 1–5 implemented; expand CHANGELOG
Co-Authored-By: claude-flow <ruv@ruv.net>
* fix(cli): keep proven mean-amplitude carrier for room features
The max-variance-subcarrier carrier locked onto motion artifacts (not
breathing) and also had an out-of-bounds bug on variable CSI subcarrier
counts. Reverted to the mean-amplitude carrier, which is validated live to
detect breathing. Phase-based extraction on a stable subcarrier remains the
proper higher-SNR refinement (ADR-151 §4).
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(calibration): multistatic fusion of co-located nodes (ADR-029/151)
MultiNodeMixture fuses several co-located nodes (each with its own
room-calibrated SpecialistBank) into one RoomState:
- presence: OR across nodes (any node seeing a person wins)
- posture/breathing/heartbeat: highest-confidence node (best viewpoint)
- restlessness/anomaly: max across nodes
- veto: any node's physically-implausible signal vetoes the room's vitals
(anti-hallucination, same as single-node runtime) + presence short-circuit
- stale: any node's STALE flag propagates
Same-room multistatic only; cross-room is federation (ADR-105), not fusion.
6 unit tests (presence OR, best-confidence breathing, single-node veto,
staleness). 35 calibration tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(cli): multistatic room-watch — fuse co-located nodes (ADR-029/151)
`room-watch --node-bank N:path` (repeatable) groups live CSI frames by node_id
and fuses per-node banks via MultiNodeMixture. Validated live on COM8 (node 9,
edge_tier=0): frames grouped + fused end-to-end. True 2-node fusion is covered
by unit tests; a second raw-CSI node is the hardware blocker. 54 tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(integration): calibration → cognitum-v0 appliance integration overview
Detailed cross-repo integration spec for cognitum-one/v0-appliance: data
contracts (CSI wire format, ADR-135 baseline binary, enrollment/bank/RoomState
JSON schemas), calibrate-serve HTTP API, public crate API, Pi5+Hailo tiering,
and a 5-step appliance integration plan. Grounded in the verified cognitum-v0
inventory (aarch64, cargo 1.96, HAILO10H, ruview-vitals-worker:50054).
Co-Authored-By: claude-flow <ruv@ruv.net>
* fix(calibration): address PR review — aarch64 decouple, API auth, path traversal, throttle
Resolves the review on #989:
- **Cross-compile (the appliance blocker):** make wifi-densepose-mat optional
and feature-gate it (`mat`), so `cargo build -p wifi-densepose-cli
--no-default-features` excludes the mat→nn→ort(ONNX)→openssl-sys chain.
Verified: `cargo tree --no-default-features` shows 0 ort/openssl deps →
calibration cross-compiles clean for the Pi.
- **Security (must-fix before LAN):**
- `--token` / CALIBRATE_TOKEN bearer-auth middleware on every route; warns if
bound non-loopback without a token.
- sanitize client-supplied `room_id` to [A-Za-z0-9_-] (≤64) before it reaches
the baseline write path — kills the `../` file-write primitive. + test.
- **Perf:** stop locking shared status + cloning SessionStatus on every UDP
frame — counters/snapshot flush on the 200 ms tick instead (no CPU
starvation under flood). finalize write moved to async `tokio::fs::write`.
- **Docs:** ADR-151 STALE wording matches the impl (baseline-id change;
drift-threshold = P6 refinement); integration doc gets the
`--no-default-features` build + auth/sanitize notes.
35 calibration + 15 CLI tests (no-default) / 20 CLI (default) pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(worldgraph,worldmodel): add crates.io READMEs
Plain-language overviews + feature lists, comparison tables (symbolic graph vs
predictive occupancy; graph vs grid vs event-log), usage, and technical
details. Adds readme = "README.md" to both manifests so they render on
crates.io on the next release.
Co-Authored-By: claude-flow <ruv@ruv.net>
* release: worldgraph & worldmodel 0.3.1 (READMEs on crates.io)
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs: precise calibration validation scope (capture+API+auth proven; clean enroll→train→infer not yet on-target)
Aligns ADR-151 §7 + the appliance integration doc with the PR #989 scope
clarification: nothing has run a clean baseline → enroll → train → infer on
live CSI; the live breathing read used the stateless head, not a trained bank.
Adds --source-format adr018v6 to the backlog.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(calibrate-serve): live GET /room/state endpoint (mixture over CSI window)
Adds a live RoomState readout over HTTP — the appliance UI's main need. The
ingest task maintains a rolling per-frame scalar window (flushed on the 200 ms
tick, no per-frame lock); the handler loads a bank (resolved as a sanitized
name under output_dir — same path-traversal defense as room_id), runs the
MixtureOfSpecialists over the window, returns RoomState JSON.
Validated live (ESP32-S3 via relay): breathing 14-19 BPM over HTTP; a
bank=../../etc/passwd query is neutralized to 'etcpasswd' (no traversal).
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(calibrate-serve): POST /room/train + fix AnchorLabel JSON to snake_case
- POST /api/v1/room/train: { room_id, baseline_id, anchors[] } → trains a
SpecialistBank and persists it as <output_dir>/<room_id>.json (path-sanitized),
readable via /room/state?bank=<room_id>. Completes the HTTP train→infer loop.
- Fix data-contract bug: AnchorLabel serialized as PascalCase variant names
(serde default) while as_str() + the integration doc used snake_case. Added
#[serde(rename_all = "snake_case")] so the JSON wire format matches the
documented contract (empty/stand_still/…). Locked with a roundtrip test.
Validated live (ESP32-S3): POST train (4 anchors → 6 specialists, persisted) →
GET /room/state returns RoomState with the trained presence/restlessness; the
synthetic-vs-real scale mismatch correctly triggers the anomaly veto. 36
calibration tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* feat(calibrate-serve): live enroll-over-HTTP (POST /enroll/anchor + /enroll/status)
Closes the last HTTP gap — the appliance can now drive the ENTIRE calibration
pipeline over HTTP without the CLI:
baseline (start/stop) -> enroll/anchor x8 -> room/train -> room/state
- POST /enroll/anchor { room_id, baseline, label, duration_s? }: the ingest task
loads the baseline (sanitized name under output_dir), captures the anchor for
the duration against it (AnchorRecorder + per-frame series), runs the quality
gate, and on completion replies with the verdict + accumulates the AnchorFeature
in an in-server enrollment map keyed by room_id. Re-prompts on rejection.
- GET /enroll/status?room=<id>: accepted anchors, next, complete.
- POST /room/train now falls back to the in-server enrollment when anchors[] is
omitted.
Validated live (ESP32-S3): capture baseline -> enroll stand_still (271 frames,
6s) -> gate correctly rejects "no person detected (presence_z 0.90 < 1.50)"
relative to a same-occupancy baseline (a clean empty-room baseline is the
documented on-target prerequisite). Builds clean; CLI tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* test(calibrate-serve): HTTP integration tests for the room/enroll endpoints
Factor the router into build_router() (shared by execute + tests) and add
tower-oneshot integration tests (no network/ingest needed):
- health + descriptor → 200
- POST /room/train persists the bank; GET /room/state → 200; train with no
anchors/enrollment → 400
- path-traversal: /room/state?bank=../../etc/passwd → 404 (sanitized, never
reads outside output_dir)
- enroll/status empty; /enroll/anchor with an unknown label → 400
CI regression coverage for the endpoints added this session. 18 CLI tests pass.
Co-Authored-By: claude-flow <ruv@ruv.net>
* fix(mat): make serde non-optional — unblocks `cargo test --workspace --no-default-features`
Making wifi-densepose-mat optional in the CLI (for the aarch64/ort decouple)
exposed a latent feature bug: mat's `api` module compiles unconditionally and
uses serde, but `serde` was an optional dep enabled only via the `api`/`serde`
features. Previously the CLI's *unconditional* mat dependency enabled those
features transitively, so `--workspace --no-default-features` still got serde;
once mat became optional+gated, the workspace build lost it →
`error[E0432]: unresolved import serde` across mat's api/* (CI red).
mat already pulls serde_json + axum unconditionally, so making `serde`
non-optional has no real cost and restores the workspace build. Does NOT affect
the aarch64 CLI build (mat isn't built there at all): verified
`cargo tree -p wifi-densepose-cli --no-default-features` still shows 0
ort/openssl deps, and `cargo test --workspace --no-default-features` compiles
clean.
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(claude.md): add wifi-densepose-calibration to crate table (pre-merge)
Co-Authored-By: claude-flow <ruv@ruv.net>
* docs(adr): ADR-152 — WiFi-pose SOTA 2026 intake (geometry-conditioned calibration, external benchmarks, encoder recipe)
Records the 2026-06-10 deep-research run (22 sources, 110 claims, 25
adversarially verified: 24 confirmed / 1 refuted) and the decisions it
implies:
- §2.1 ACCEPTED: geometry-condition the ADR-151 calibration system —
NodeGeometry at enrollment, geometry embeddings for future LoRA heads,
PerceptAlign-style two-checkerboard camera↔WiFi alignment for the
ADR-079 supervised path. PerceptAlign (MobiCom'26) names the failure
mode ("coordinate overfitting") that matches our own ADR-150 cross-
subject collapse.
- §2.2 ACCEPTED: benchmark protocol vs external "WiFlow-STD (DY2434)"
(claimed 97.25% PCK@20, Apache-2.0 weights+dataset) with a no-citation
rule until measured on our 17-keypoint ESP32 eval set. Name collision
with our internal WiFlow is disambiguated.
- §2.3 ACCEPTED: amend ADR-150 training recipe per UNSW MAE study —
80% masking, (30,3) patches, data-over-capacity priority (log-linear,
unsaturated at 1.3M samples).
- §2.4 watch items: IEEE 802.11bf-2025 published 2025-09-26;
esp_wifi_sensing as external presence baseline (drop-in claim REFUTED
0-3); ZTECSITool 160MHz/512-subcarrier anchor node (procurement-gated).
- §2.5 NOT adopted: non-WiFi "foundation model" papers; DensePose-UV
(no 2025-2026 work does UV regression from commodity WiFi).
Every number is evidence-graded CLAIMED vs MEASURED in the source
register. Re-check horizon 2026-12.
Co-Authored-By: RuFlo <ruv@ruv.net>
* test(calibration): full-loop integration test — baseline→enroll→train→infer proven in-process (ADR-151 §7 gap, software half)
Closes the software half of PR #989's headline validation gap: the
complete calibration loop had never run end-to-end anywhere, even
in-process. tests/full_loop.rs (412 lines, deterministic xorshift32
room simulator, HT20/52-subcarrier/20Hz, same fingerprint family as
the ADR-135 roundtrip test) now drives the CLI's exact stage order
through the public API:
1. baseline — 600 static frames, zero motion flags post-warmup,
calibration_uuid() exactly as the CLI derives it
2. enroll — all 8 AnchorLabel::SEQUENCE anchors through
AnchorQualityGate::default(), session is_complete()
3. extract — AnchorFeature::from_series recovers injected 0.25Hz
and 0.125Hz breathing within ±0.04Hz
4. train — SpecialistBank::train fits all 6 specialists; JSON
round-trip and the runtime consumes the RELOADED bank
5. infer — positive: never-enrolled 0.30Hz subject reads present,
18±2 BPM; negative: empty window reads absent;
degradation: foreign baseline_id flags STALE
Seed-robust (5 seeds), passes with and without default features:
36 unit + 1 integration green.
Validation docs updated (ADR-151 §7 + integration doc §7 matrix): what
remains is strictly the on-target hardware session (real CSI, physically
empty room, operator performing the guided anchors). Three behavioral
findings from building the test are recorded for pre-session triage:
z-band squeeze between baseline motion flagging (z>2.0) and the still-
anchor gate (presence_z≥1.5) — likeliest on-hardware enroll failure;
variance-only PresenceSpecialist missing motionless-person mean shift;
ungated breathing_hz/heart_hz in noise-window embeddings.
Co-Authored-By: RuFlo <ruv@ruv.net>
* fix(calibration): close all four ADR-152 behavioral findings pre-hardware-session
The full-loop integration test surfaced three findings; fixing the third
exposed a fourth. All four are fixed and regression-guarded:
1. z-band squeeze (enrollment.rs) — anchor motion is now measured from
frame-to-frame deltas of the deviation series (|Δz| > Z_DELTA_MOTION
0.5 ∨ |Δφ| > π/6), not from the absolute motion_flagged, which fires
at amplitude_z_median > 2.0 vs the EMPTY baseline and so conflated
presence strength with motion. A strongly-reflecting still person
(z = 3.0 — every frame flagged by the old heuristic) now enrolls.
The old unit tests mocked (z=3.0, motion=false), a combination the
real deviation() can never emit — which is exactly how the squeeze
hid; tests now derive the flag from z the way the producer does.
2. variance-only presence (specialist.rs) — PresenceSpecialist gains a
mean-shift channel: present when variance > threshold OR
|mean − empty_mean| > mean_dist_threshold (trained at half the
empty→occupied mean distance, None when the means don't separate).
Detects the motionless person whose body raises the scalar mean but
not its variance. Old persisted banks deserialize with the channel
inert (serde default None) — variance-only behavior preserved,
proven by a fixture test against pre-change JSON.
3. ungated hz embedding (extract.rs) — Features::embedding() zeroes
breathing_hz/heart_hz below EMBED_MIN_SCORE (0.25), keeping the
random in-band peaks of noise windows out of the posture/anomaly
prototype space. Raw fields stay ungated (specialists have their
own stricter gates).
4. heart-band lag-floor leakage (extract.rs, found while fixing 3) —
a pure 0.30 Hz breathing signal scored 0.67 in the heart band at
3.33 Hz: out-of-band rhythm leaks as a monotonic slope whose max
sits at the band's lag floor, so score gating alone cannot stop it.
autocorr_dominant now requires the winning lag to be an interior
local maximum; band-edge "peaks" are rejected, true in-band peaks
(interior by definition) are preserved.
full_loop.rs strengthened to drive the fixes end-to-end: the StandStill
anchor is now a z=3.0 strong reflector (unenrollable pre-fix), and a new
motionless-person runtime case proves mean-channel detection at empty-
level variance.
Validation: 41 calibration unit + 1 full-loop integration + 23 CLI tests
green; cargo test --workspace --no-default-features exit 0.
Co-Authored-By: RuFlo <ruv@ruv.net>
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.
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
usewifi_densepose_core::{CsiFrame,CsiMetadata,SignalProcessor};usewifi_densepose_signal::{CsiProcessor,CsiProcessorConfig};// Configure the CSI processor
letconfig=CsiProcessorConfig::default();letprocessor=CsiProcessor::new(config);// Process a CSI frame
letframe=CsiFrame{/* ... */};letprocessed=processor.process(&frame)?;
2a307138f2
