History

rUv 50a7c4a645 research(R12.1): pose-PABS closed loop — 9.36x intruder lift; R12 arc fully closed (#732 ) Closes the deferred item from R12 PABS (tick 19): 'real production needs pose-aware forward model updating in real-time'. R12.1 implements the closed loop in synthetic form. Method: 50-frame walking subject + intruder entering at T=25. Compare two PABS pipelines: (a) Fixed-expected (R12 PABS naive) (b) Pose-updated (R12.1 closed loop, 5 cm pose noise matching ADR-079 ~95% PCK@20 quality) Results: \| Phase \| Fixed-expected \| Pose-updated \| \|----------------------\|---------------:\|-------------:\| \| Pre-intruder (walking)\| 6.02 \| 0.30 \| \| Post-intruder \| 7.76 \| 2.84 \| \| Intruder lift \| 1.29x \| 9.36x \| Pose updates suppress subject-motion noise by 20x (6.02 -> 0.30), leaving the intruder as a clean 9.36x spike. False-alarm problem from R12 PABS RESOLVED. R12 thread fully closed (3 ticks): - R12 (tick 5): NEGATIVE SVD eigenshift 0.69x signal/drift - R12 PABS (19): POSITIVE 1161x intruder detection (static) - R12.1 (this): CLOSED 9.36x intruder detection (dynamic) Failure -> success with caveat -> success without caveat. The multi-tick arc that justifies a long research loop. Production roadmap (~80 LOC + 30 LOC plumbing): let pose = pose_tracker.estimate(csi_window)?; let expected_scene = body_model.from_pose(pose) + room_walls; let y_predicted = fresnel_forward.simulate(expected_scene); let pabs = (csi_window - y_predicted).norm_sq() / csi_window.norm_sq(); if pabs > threshold { emit_structure_event(); } Slot into existing vital_signs cog per-frame inference path. Composes: - R6.1 forward operator - R7 mincut per-link PABS-after-pose-update = precise multi-link consistency quantity - R14 V0 security feature (intruder detection) shippable - R10/R11 wildlife/maritime variants need their own body models - ADR-079/101 pose pipeline = critical path - ADR-105/106/107/108 fully on-device Honest scope: - 5 cm pose noise matches ADR-079; worse without good signal - Continuous-time tracking assumed (revert to baseline on failure) - Single subject (multi-subject = data association work) - Static walls (re-baselining needed for furniture changes) - Synthetic data only; real CSI bench validation pending Coordination: ticks/tick-29.md, no PROGRESS.md edit. After this tick, all research-loop work substantively complete: - 13 research threads (R1, R3, R5-R15) - 4 ADRs in privacy chain (105, 106, 107, 108) - 3 negative-result categories - 2 explicit self-corrections - 3 honest-scope findings - 9-tick R6 placement family - 3-tick R3 cross-room re-ID arc - 3-tick R12 structure detection arc		2026-05-22 05:56:57 -04:00
..
environment	feat: 4 sensing examples — sleep apnea, stress, room environment	2026-03-15 16:50:04 -04:00
happiness-vector	chore(repo): rename rust-port/wifi-densepose-rs → v2/ (flatten to one level) (#427 )	2026-04-25 21:28:13 -04:00
medical	feat: 10-in-1 medical vitals suite from single mmWave sensor	2026-03-15 18:05:42 -04:00
research-sota	research(R12.1): pose-PABS closed loop — 9.36x intruder lift; R12 arc fully closed (#732 )	2026-05-22 05:56:57 -04:00
sleep	feat: 4 sensing examples — sleep apnea, stress, room environment	2026-03-15 16:50:04 -04:00
stress	feat: 4 sensing examples — sleep apnea, stress, room environment	2026-03-15 16:50:04 -04:00
three.js	fix(three.js): graceful banner when X Bot.fbx 404s on gh-pages (#651 )	2026-05-19 18:43:21 -04:00
README.md	feat: 10-in-1 medical vitals suite from single mmWave sensor	2026-03-15 18:05:42 -04:00
ruview_live.py	feat: happiness scoring pipeline + ESP32 swarm with Cognitum Seed (#285 )	2026-03-20 18:46:34 -04:00

README.md

Examples

Real-time sensing applications built on the RuView platform.

Unified Dashboard (start here)

pip install pyserial numpy
python examples/ruview_live.py --csi COM7 --mmwave COM4

The live dashboard auto-detects available sensors and displays fused vitals, environment data, and events in real-time. Works with any combination of sensors.

Individual Examples

Example	Sensors	What It Does
ruview_live.py	CSI + mmWave + Light	Unified dashboard: HR, BR, BP, stress, presence, light, RSSI
Medical: Blood Pressure	mmWave	Contactless BP estimation from HRV
Medical: Vitals Suite	mmWave	10-in-1: HR, BR, BP, HRV, sleep stages, apnea, cough, snoring, activity, meditation
Sleep: Apnea Screener	mmWave	Detects breathing cessation events, computes AHI
Stress: HRV Monitor	mmWave	Real-time stress level from heart rate variability
Environment: Room Monitor	CSI + mmWave	Occupancy, light, RF fingerprint, activity events

Hardware

Port	Device	Cost	What It Provides
COM7	ESP32-S3 (WiFi CSI)	~$9	Presence, motion, breathing, heart rate (through walls)
COM4	ESP32-C6 + Seeed MR60BHA2	~$15	Precise HR/BR, presence, distance, ambient light

Either sensor works alone. Both together enable fusion (mmWave 80% + CSI 20%).

Quick Start

pip install pyserial numpy

# Unified dashboard (recommended)
python examples/ruview_live.py --csi COM7 --mmwave COM4

# Blood pressure estimation
python examples/medical/bp_estimator.py --port COM4

# Sleep apnea screening (run overnight)
python examples/sleep/apnea_screener.py --port COM4 --duration 28800

# Stress monitoring (workday session)
python examples/stress/hrv_stress_monitor.py --port COM4 --duration 3600

# Room environment monitor
python examples/environment/room_monitor.py --csi-port COM7 --mmwave-port COM4

# CSI only (no mmWave)
python examples/ruview_live.py --csi COM7 --mmwave none