wifi-densepose

History

ruv f41f5fc85b feat(c6_sync_espnow): EMA-smooth cross-board offset, expose via get_epoch_us SOTA iter 5 — converted the iter 4 ADR-110 §A0.8 closing recommendation ("host-side Kalman / linear fit on the offset trajectory") into a firmware-side, fixed-point EMA so every downstream consumer of c6_sync_espnow_get_epoch_us() gets bounded-jitter timestamps for free. Implementation: * α = 1/8 (Q3.3 shift = 3), ≈8-sample effective window at the 10 Hz beacon rate. Tracks the ≈1.4 ppm crystal drift §A0.8 measured while averaging out per-beacon WiFi-MAC jitter spikes. * y[n] = y[n-1] + (raw - y[n-1]) >> 3 — integer arithmetic, two cycles on the RISC-V LP/HP cores, no float dependency. * Seeded from the first follower-mode sample so we don't bias toward 0. * New getter: int64_t c6_sync_espnow_get_offset_us_smoothed(void). * c6_sync_espnow_get_offset_us() (raw) stays for diagnostics, unchanged. * c6_sync_espnow_get_epoch_us() now prefers the smoothed offset once s_smoothed_seeded — meaning every CSI frame timestamp ADR-029/030 consumes is already filtered, no host-side rework required. Diag log line now prints both: c6_espnow: tx#N ... offset_us=R smoothed=S 90 s bench verification (witness §A0.9 + iter5-COM9-ema-90s.log) shows both values tracking. Methodology caveat in §A0.9: short windows don't let the smoothing benefit emerge over the raw noise floor — the suppression ratio measurement needs ≥5 min, deferred to a long-soak iteration. Binary size cost: ~32 bytes (one int64, one bool, one getter). C6 build still 45% partition slack. Co-Authored-By: claude-flow <ruv@ruv.net>	2026-05-23 12:04:22 -04:00
..
esp32-csi-node	feat(c6_sync_espnow): EMA-smooth cross-board offset, expose via get_epoch_us	2026-05-23 12:04:22 -04:00
esp32-hello-world	firmware/esp32-hello-world: ESP32-C6 target and ESP-IDF v6 build fixes (#524 )	2026-05-17 18:00:45 -04:00

ruv f41f5fc85b feat(c6_sync_espnow): EMA-smooth cross-board offset, expose via get_epoch_us

SOTA iter 5 — converted the iter 4 ADR-110 §A0.8 closing recommendation
("host-side Kalman / linear fit on the offset trajectory") into a
firmware-side, fixed-point EMA so every downstream consumer of
c6_sync_espnow_get_epoch_us() gets bounded-jitter timestamps for free.

Implementation:
* α = 1/8 (Q3.3 shift = 3), ≈8-sample effective window at the 10 Hz
  beacon rate. Tracks the ≈1.4 ppm crystal drift §A0.8 measured while
  averaging out per-beacon WiFi-MAC jitter spikes.
* y[n] = y[n-1] + (raw - y[n-1]) >> 3  — integer arithmetic, two cycles
  on the RISC-V LP/HP cores, no float dependency.
* Seeded from the first follower-mode sample so we don't bias toward 0.
* New getter: int64_t c6_sync_espnow_get_offset_us_smoothed(void).
* c6_sync_espnow_get_offset_us() (raw) stays for diagnostics, unchanged.
* c6_sync_espnow_get_epoch_us() now prefers the smoothed offset once
  s_smoothed_seeded — meaning every CSI frame timestamp ADR-029/030
  consumes is already filtered, no host-side rework required.

Diag log line now prints both:
  c6_espnow: tx#N ... offset_us=R smoothed=S

90 s bench verification (witness §A0.9 + iter5-COM9-ema-90s.log) shows
both values tracking. Methodology caveat in §A0.9: short windows don't
let the smoothing benefit emerge over the raw noise floor — the
suppression ratio measurement needs ≥5 min, deferred to a long-soak
iteration.

Binary size cost: ~32 bytes (one int64, one bool, one getter). C6 build
still 45% partition slack.

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

2026-05-23 12:04:22 -04:00

esp32-csi-node

feat(c6_sync_espnow): EMA-smooth cross-board offset, expose via get_epoch_us

2026-05-23 12:04:22 -04:00

esp32-hello-world

firmware/esp32-hello-world: ESP32-C6 target and ESP-IDF v6 build fixes (#524 )

2026-05-17 18:00:45 -04:00