Adds a `--min-frames N` flag to `wifi-densepose calibrate` that overrides
the ADR-135 tier minimum (default 600 frames at 20 Hz for HT20).
Motivation: validated end-to-end against a live ESP32-S3 on COM9, freshly
re-provisioned with target-ip = 192.168.1.50 (this host). The firmware
emits CSI at roughly 0.5 Hz in the current quiet RF environment (most
UDP packets are 0xC511_0006 status, not 0xC511_0001 CSI). Waiting 20 min
to collect 600 frames at install time is operator-hostile; raising the
firmware's CSI rate is a separate concern.
When `--min-frames > 0`, the CLI prints a WARN line stating the override
relaxes the phase-concentration guarantee and should not be used in
production. ADR-135 defaults are preserved unchanged.
Live-hardware validation with `--min-frames 10` over 32 s captured 10
real CSI frames from the ESP32, finalised a baseline-real.bin (860 B)
with correct magic 0xCA1B_0001, version 1, tier HT20, and 52 active
subcarriers. End-to-end pipeline confirmed against real hardware, not
just synthetic UDP.
Co-Authored-By: claude-flow <ruv@ruv.net>
Operator-initiated calibration that records 30 s of stationary CSI,
emits a per-subcarrier baseline (amplitude mean+variance via Welford,
phase via circular sin/cos sums with von Mises dispersion), and gates
downstream stages on a deviation z-score. Plugs into multistatic
coherence gating, motion/presence detection, and the new ADR-134 CIR
estimator as a reference-subtracted input.
API surface (under wifi_densepose_signal):
CalibrationConfig::{ht20, ht40, he20, he40}
CalibrationRecorder { record(), finalize(), frames_recorded() }
BaselineCalibration {
subcarriers: Vec<SubcarrierBaseline>,
deviation(&CsiFrame), subtract_in_place(&mut CsiFrame),
to_bytes(), from_bytes()
}
CalibrationDeviationScore { amplitude_z_median, amplitude_z_max,
phase_drift_median, motion_flagged }
CalibrationError { SubcarrierMismatch, TierMismatch,
InsufficientFrames, VersionMismatch, TruncatedBuffer }
Binary baseline format: magic 0xCA1B_0001 + u8 version=1 + u8 tier +
captured_at_unix_s (i64) + frame_count (u64) + num_subcarriers (u32) +
[SubcarrierBaseline; N] as 16 bytes each (amp_mean, amp_variance,
phase_mean, phase_dispersion as f32 LE). Hand-written serialisation so
the format is stable across Rust toolchain versions without serde drift.
CLI: new `wifi-densepose calibrate` subcommand binds a UDP listener
(0xC511_0001 frames), streams them through CalibrationRecorder, prints
a real-time z-score banner per ADR-135 §risk 1 (operator-may-be-moving),
aborts on sustained high deviation, and writes the binary baseline to
disk. Local UDP packet parser duplicated from sensing-server (per ADR
discussion — avoids cross-crate API churn).
Witness: cross-platform-deterministic SHA-256 over the per-subcarrier
quantised baseline profile (u16 LE at 1e-2/1e-4/1e-3, no sort) using
the lesson learnt from the CIR PR #837 libm-jitter fix. Hash:
d6bce07ecb1648e6936561df44bf4a3bfc17bb0ba5f692646b2301d105b52f67
CI guard: new "ADR-135 calibration witness proof (determinism guard)"
step under the Rust Workspace Tests job, adjacent to the existing
ADR-134 CIR guard. Regressions are unambiguously attributable.
Hardware-in-loop validation: full 600-frame capture exercised via the
new scripts/synth-csi-udp.py emitter targeting 127.0.0.1:5005. The CLI
binary received 600 frames at 20 Hz, z_med stable at ~0.7, motion
correctly NOT flagged, finalised baseline written to baseline.bin (860
bytes) with correct magic + version + timestamp in the header. Live
ESP32 capture from COM9 is operator follow-up — requires provisioning
the firmware's UDP target IP to match the host running the CLI.
Test results (cargo test -p wifi-densepose-signal --no-default-features):
lib: 382 pass / 0 fail / 1 ignored
calibration_synthetic: 17 pass / 0 fail
calibration_drift: 5 pass / 0 fail
calibration_roundtrip: 10 pass / 0 fail
cir_*: 9 pass + 6 documented P2 ignores
doctest: 10 pass
Bench: 20 Criterion combinations registered
(recorder_record / recorder_finalize / deviation / record_600 /
to_bytes across HT20/HT40/HE20/HE40 tiers).
Witness: bash scripts/verify-calibration-proof.sh → VERDICT: PASS
Co-Authored-By: claude-flow <ruv@ruv.net>
The Rust port lived two directories deep (rust-port/wifi-densepose-rs/)
without any sibling under rust-port/ that warranted the extra level.
Move the whole workspace up to v2/ to match v1/ (Python) at the same
depth and shorten every cd / build command across the repo.
git mv preserves history for all tracked files. 60 files updated for
path references (CI workflows, ADRs, docs, scripts, READMEs, internal
.claude-flow state). Two manual fixes for relative-cd paths in
CLAUDE.md and ADR-043 that became wrong after the depth change
(cd ../.. → cd ..).
Validated:
- cargo check --workspace --no-default-features → clean (after target/
nuke; the gitignored target/ was carried by the OS rename and had
hard-coded old paths in build scripts)
- cargo test --workspace --no-default-features → 1,539 passed, 0 failed,
8 ignored (same totals as pre-rename)
- ESP32-S3 on COM7 → still streaming live CSI (cb #40300, RSSI -64 dBm)
After-merge follow-up: contributors should `rm -rf v2/target` once and
let cargo regenerate from the new path.
rUv
dependabot[bot]