9-room cultivation audit · Sun Coast Bloom LLC. (facility 4497, Bloomfield Innovations) · 2026-05-29 → 2026-06-12 (REAL 14-day trace, raw ~9-min cadence, 110-device mesh). First AROYA audit for this site, built as supporting context for today’s OpenSprinkler → AROYA integration conversation — and the data makes that case by itself. (1) AROYA sees your substrate, not your irrigation controller. Every series at this site is substrate (VWC / pore EC / substrate temp from TEROS One heads). There is no drip-volume, runoff, or valve-event telemetry, so every shot count in this report is reverse-engineered from VWC step-ups. Connecting OpenSprinkler would turn that inference into ground truth: scheduled vs delivered shots, P1/P2 cadence by zone, and drip-vs-drain accounting. (2) The three HG rooms steer in-band on average — consistency is the gap. Greenhouse #2 (G 2, wk 2–3 flower) runs 18.3 pp absolute overnight dryback with a textbook EC stack-and-release (peaked 11.4 mS in stretch, now easing); Greenhouse #3 (G 3, harvest 6/22, Ripen starts 6/15) runs 17.7 pp at 3.61 mS — it needs the ripening deepening (25–35 pp absolute) and EC restack (6–8 mS) to start now; 600 Room 2 (HG 6, harvest 6/27) averages 24.3 pp but swings ±13.2 pp night-to-night — the last-shot clock is wandering. (3) Substrate heat is the climate proxy and it flags. With no climate sensors, substrate temp is the only thermometer here — and it peaks 102.0°F in the greenhouse rooms, well above the 69–76°F root-zone window. (4) Device health: 33 of 110 devices silent >48 h. 1Z and ‘10 section 2z’ went fully dark ~6/10 (17 devices), and 16 devices sit unplaced in inventory — see the companion Device Health report. Coverage: 5 rooms at 100%, 4 partial (two dropouts, two fresh installs).Auditoría de 9 salas. AROYA ve el sustrato, no el controlador de riego: no hay telemetría de goteo/drenaje — integrar OpenSprinkler cerraría esa brecha. Los 3 grupos de cosecha conducen suave; GH#3 cosecha 6/22 y necesita profundizar el dryback de maduración. Temperatura de sustrato pico alta. 33 de 110 dispositivos silenciosos.
This is the first AROYA audit of Sun Coast Bloom LLC. — there is no prior audit or commitment history to grade against, so this report sets the baseline. It was prepared for the 2026-06-12 meeting with Nipat Bussarakonsirivit, booked on “Open sprinkler connection to the AROYA platform” — so the question this audit keeps answering is: what can AROYA see about irrigation today, and what would an OpenSprinkler integration add? Today: substrate response only (VWC step-ups tell us a shot landed). After integration: commanded valve events, durations and zones — letting AROYA grade scheduled vs delivered irrigation, alarm on missed shots, and close the loop on P1/P2 cadence. The next audit grades against the recommendations at the bottom of this report.Primera auditoría de Sun Coast Bloom LLC.; sin compromisos previos. Preparada para la reunión del 2026-06-12 sobre la integración OpenSprinkler → AROYA.
This site has zero climate sensors — no air temp, RH, VPD, or CO₂ series exist in AROYA for any room (the 110-device fleet is substrate nodes + mesh infrastructure only). For a greenhouse facility that is a real blind spot: we cannot grade VPD windows, DIF, or humidity risk. The one climate proxy we do have is substrate temperature — root-zone heat integrates greenhouse air temp and sun load. The table reads it against the 69–76°F root-zone window. Above ~80°F root-zone, dissolved O₂ drops and root-disease pressure climbs; the greenhouse rooms peak well above that on sunny afternoons. Recommendation #3 covers adding climate sensing; an OpenSprinkler integration does not fix this gap (it adds irrigation events, not climate).Este sitio no tiene sensores de clima. La única lectura térmica es la temperatura del sustrato, evaluada contra 69–76°F.
| RoomSala | PhaseFase | Substrate temp mean (°F)Temp media | MinMín | MaxMáx | Root-zone windowVentana radicular | VerdictVeredicto |
|---|---|---|---|---|---|---|
| Greenhouse #2 | Bulking-era (HG ‘Maintain’) | 66.7 | 41.8 | 95.8 | 69–76°F | heat flag |
| Greenhouse #3 | Late Bulking → Ripening (HG ‘Maintain’) | 65.1 | 42.8 | 93.6 | 69–76°F | heat flag |
| 600 (Room 2) | Late Bulking (HG ‘Maintain’) | 69.4 | 62.4 | 78.5 | 69–76°F | in band |
| Greenhouse #1 | Flowering (no HG on calendar) | 72.9 | 51.5 | 102.0 | 66–76°F | heat flag |
| 600 (Room 1) | Flowering (no HG on calendar) | 73.3 | 56.6 | 80.6 | 66–76°F | in band |
| 1Z | Flowering (no HG on calendar) | 70.1 | 53.4 | 85.3 | 66–76°F | in band |
| 10 section 2z | Flowering (no HG on calendar) | 68.8 | 53.6 | 87.2 | 66–76°F | in band |
| Jims Veggies (#1) | Flowering (no HG on calendar) | 82.1 | 82.0 | 82.2 | 66–76°F | review |
| Jims Veggies (#2) | Flowering (no HG on calendar) | 81.2 | 77.3 | 82.8 | 66–76°F | review |
Normally this section pairs the day’s VPD profile with the day’s shot rhythm. With no climate series, we read the interplay through the substrate: hot root-zone afternoons accelerate water draw (steeper intra-day VWC slopes) and concentrate pore EC between shots. Watch the pairing of substrate-temp max with EC window delta — rooms where both run high are evaporating their way into EC stack, not steering into it. Substrate EC is the steering output: feed EC is a knob, runoff EC is a result (and unmeasured here), pore EC is the lever.Sin series de clima, leemos la interacción por el sustrato: tardes calientes aceleran el consumo y concentran la CE de poro.
| RoomSala | PhaseFase | VWC envelope | Pore EC mean | EC window deltaDelta CE | Overnight dryback (absolute pp)Dryback (pp absoluto) | Sub-temp maxTemp máx |
|---|---|---|---|---|---|---|
| Greenhouse #2 | Bulking-era (HG ‘Maintain’) | 23.7–75.7% | 8.10 mS above band | -3.28 mS | 18.3 pp in band | 95.8°F |
| Greenhouse #3 | Late Bulking → Ripening (HG ‘Maintain’) | 35.9–74.2% | 3.61 mS below band | +0.18 mS | 17.7 pp in band | 93.6°F |
| 600 (Room 2) | Late Bulking (HG ‘Maintain’) | 15.0–71.3% | 3.55 mS below band | -0.45 mS | 24.3 pp in band | 78.5°F |
| Greenhouse #1 | Flowering (no HG on calendar) | 47.8–71.7% | 3.87 mS below band | +2.23 mS | 11.6 pp below | 102.0°F |
| 600 (Room 1) | Flowering (no HG on calendar) | 32.8–70.0% | 6.15 mS in band | +1.06 mS | 24.4 pp in band | 80.6°F |
| 1Z | Flowering (no HG on calendar) | 0.0–29.0% | 2.52 mS below band | +1.58 mS | 14.8 pp in band | 85.3°F |
| 10 section 2z | Flowering (no HG on calendar) | 0.3–1.2% | 0.00 mS below band | +0.00 mS | 0.3 pp below | 87.2°F |
| Jims Veggies (#1) | Flowering (no HG on calendar) | 76.2–76.4% | 2.96 mS below band | +0.02 mS | n/a pp n/a | 82.2°F |
| Jims Veggies (#2) | Flowering (no HG on calendar) | 74.1–76.3% | 2.97 mS below band | -0.00 mS | 1.4 pp below | 82.8°F |
One card per room. Steering intent (vegetatively vs generatively) is stated before the numbers. Dryback is in absolute percentage points (peak VWC − following pre-irrigation trough), per AROYA convention. HG metadata from the live roster is on each chip and card. The substrate is configured SOILLESS — if it is coco, its high CEC means aggressive generative steering carries Cal/Mg-lockout risk; if rockwool, deep EC stacks need runoff to avoid salt buildup. Worth confirming on the call.Una tarjeta por sala. Intención de manejo antes de los números. Dryback en puntos porcentuales absolutos.
Click a room chip to focus its card + chart trace (click again to show all). Toggle Compare mode to multi-select rooms side by side.Haga clic en una sala para enfocarla. Active modo Comparar.
For each room: VWC, pore EC and substrate temp as hourly traces, then the daily steering ledger — overnight dryback (absolute pp), shots/day and peak-vs-trough envelope. Target bands shaded per phase. There are no climate charts because no climate series exist at this site (see HVAC section).Por sala: VWC, CE de poro y temp de sustrato por hora, más el libro diario de manejo (dryback en pp absolutos, shots/día, pico-vs-valle).
The 4-phase irrigation day is how a crop-steering controller is programmed: P0 activation (lights-on → first shot — let the plant wake up and pull 1–3 pp additional dryback), P1 ramp-up (small shots back to field capacity + first runoff), P2 maintenance (pulses defending field capacity through the day), P3 dry-down (last shot → next morning — the primary steering lever). The table shows the observed rhythm per room. Method footnote: with no flow telemetry, shots are derived from VWC step-up signatures — ≥0.8 pp rise between consecutive ~9-min samples on the room-mean series, cross-checked against ≥2 pp jumps in 1 h bins — so closely-spaced pulses can merge and small zone-level shots can be missed. That inferential ceiling is precisely what the integration removes.El día de 4 fases: P0 activación, P1 rampa, P2 mantenimiento, P3 secado. Sin telemetría de flujo, los shots se derivan de subidas de VWC (≥0.8 pp entre muestras de ~9 min; verificado con saltos ≥2 pp en bins de 1 h).
| RoomSala | PhaseFase | Shots/day (derived)Shots/día | Peak VWCVWC pico | Shot-size targetObjetivo shot | Overnight dryback (absolute pp)Dryback (pp absoluto) | SteeringManejo | Data agrees?¿Datos acuerdan? |
|---|---|---|---|---|---|---|---|
| Greenhouse #2 | Bulking-era (HG ‘Maintain’) | 9.6 | 60% | 3–5% | 18.3 pp ± 8.4 | Generative-leaning | agrees |
| Greenhouse #3 | Late Bulking → Ripening (HG ‘Maintain’) | 9.1 | 72% | 3–5% | 17.7 pp ± 7.3 | Generative-leaning | agrees |
| 600 (Room 2) | Late Bulking (HG ‘Maintain’) | 14.4 | 69% | 3–5% | 24.3 pp ± 13.2 | Generative-leaning | agrees |
| Greenhouse #1 | Flowering (no HG on calendar) | 6.0 | 66% | 3–8% | 11.6 pp ± 4.2 | Vegetative-leaning | under-dry vs band |
| 600 (Room 1) | Flowering (no HG on calendar) | 5.9 | 63% | 3–8% | 24.4 pp ± 4.1 | Generative-leaning | agrees |
| 1Z | Flowering (no HG on calendar) | 1.0 | 10% | 3–8% | 14.8 pp ± 14.2 | Vegetative-leaning | agrees |
| 10 section 2z | Flowering (no HG on calendar) | 0.0 | 1% | 3–8% | 0.3 pp ± 0.4 | Vegetative-leaning | under-dry vs band |
| Jims Veggies (#1) | Flowering (no HG on calendar) | 0.0 | 76% | 3–8% | n/a pp | Vegetative-leaning | under-dry vs band |
| Jims Veggies (#2) | Flowering (no HG on calendar) | 0.0 | 76% | 3–8% | 1.4 pp ± 0.6 | Vegetative-leaning | under-dry vs band |
Today: substrate response only — a VWC step-up says “a shot probably landed,” with no zone-level command record, no shot volume, no runoff, and no way to distinguish a skipped shot from a clogged line from a merged pulse. P0 delay and P1 onset can’t be timed against lights-on for the rooms with no HG light schedule. After integration: OpenSprinkler’s valve schedule and run-log become first-class AROYA irrigation events — scheduled vs delivered per zone, true shot counts and durations to pair with VWC/EC response, missed-shot and stuck-valve alerting, and clean P0/P1/P2/P3 cadence reporting. This audit’s derived shot counts (above) become the validation baseline: after connection, derived-vs-commanded should reconcile within ±1 shot/day, and any gap is a hydraulics finding.Hoy: solo respuesta del sustrato. Con la integración: eventos de válvula reales por zona — programado vs entregado, alertas de shots perdidos y cadencia P0/P1/P2/P3 limpia.
Per-room phase (from the live HG roster where one exists) with the AROYA target band for that phase. “Maintain” is the grower’s own phase label on all three HGs — we map it to flower maintenance/bulking; “Build” maps to stretch/early flower. 6 of 9 sensed rooms have no harvest group on the calendar, which blocks phase-aware target grading and light-schedule-anchored P0 timing.Fase por sala (del calendario de cosechas) con su banda objetivo. 6 de 9 salas no tienen grupo de cosecha en el calendario.
Root-in (dryback 10–15 pp, shot 1–3%, EC feed ~3 mS) → Veg (dryback 5–15 pp, shot 3–5%, substrate EC 3.0–5.0) → Early flower / stretch (dryback 20–30 pp absolute, shot 6–10%, P0 delay 120–240 min, substrate EC stacking 6.0–12.0) → Bulking (dryback 15–25 pp absolute, shot 3–5%, runoff 20–30%, substrate EC 4.0–7.0) → Ripening (dryback 25–35 pp absolute · push 40 pp final week, shot 6–10%, substrate EC restack 6.0–8.0). Sources: AROYA Crop Steering: The Ultimate Guide; Grodan Cannabis Edition Ch. 3–4; Athena Vegetative Stage / Substrates Guide; Growlink Crop Steering E-Book.Root-in → Veg (5–15 pp) → Floración temprana (20–30 pp absoluto) → Bulking (15–25 pp) → Maduración (25–35 pp absoluto).
| RoomSala | PhaseFase | Harvest groupGrupo | Lights (HG)Luces | Shot sizeShot | Dryback bandBanda dryback | Pore EC bandBanda CE | Sub-temp bandBanda temp |
|---|---|---|---|---|---|---|---|
| Greenhouse #2 SOILLESS · room ID 19993 | Bulking-era (HG ‘Maintain’) | G 2 5/19-7/21 | 06:00–18:00 ET | 3–5% (P1 ramp) | 15–25 pp absolute | 4.0–7.0 mS | 69–76°F |
| Greenhouse #3 SOILLESS · room ID 19782 | Late Bulking → Ripening (HG ‘Maintain’) | G 3 4/20-6/22 | 06:00–18:00 ET | 3–5% (P1 ramp) | 15–25 pp absolute | 4.0–7.0 mS | 69–76°F |
| 600 (Room 2) SOILLESS · room ID 19339 | Late Bulking (HG ‘Maintain’) | 6 4/25-6/27 | 19:00–07:00 ET | 3–5% (P1 ramp) | 15–25 pp absolute | 4.0–7.0 mS | 69–76°F |
| Greenhouse #1 SOILLESS · room ID 19780 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
| 600 (Room 1) SOILLESS · room ID 19214 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
| 1Z SOILLESS · room ID 17776 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
| 10 section 2z SOILLESS · room ID 17777 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
| Jims Veggies (#1) SOILLESS · room ID 20181 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
| Jims Veggies (#2) SOILLESS · room ID 20188 | Flowering (no HG on calendar) | none on calendar | — (no HG light schedule) | 3–8% (P1 ramp) | 12–30 pp absolute | 4.0–9.0 mS | 66–76°F |
Coverage = % of the 14-day window with samples present (manifest-validated; timestamps inspected before any metric was computed). 5 of 9 rooms span ≥100% of the window; the 4 short rooms are listed honestly below — their numbers describe only the dates shown and were not extrapolated. No drip-volume, runoff, flow, or climate series exist anywhere at this facility; shot counts are VWC-derived (method in §7).Cobertura = % de la ventana de 14 días con muestras. Las 4 salas cortas se listan honestamente; nada fue extrapolado.
| RoomSala | CoverageCobertura | Data spanRango | SamplesMuestras | NotesNotas |
|---|---|---|---|---|
| Greenhouse #2 | 100% | 2026-05-29 → 2026-06-12 | n=2240 | Full window. TEROS One substrate heads only — no climate or flow series exist for this room. |
| Greenhouse #3 | 100% | 2026-05-29 → 2026-06-12 | n=2240 | Full window. TEROS One substrate heads only — no climate or flow series exist for this room. |
| 600 (Room 2) | 100% | 2026-05-29 → 2026-06-12 | n=2197 | Full window. TEROS One substrate heads only — no climate or flow series exist for this room. |
| Greenhouse #1 | 100% | 2026-05-29 → 2026-06-12 | n=2240 | Full window. TEROS One substrate heads only — no climate or flow series exist for this room. |
| 600 (Room 1) | 100% | 2026-05-29 → 2026-06-12 | n=2198 | Full window. TEROS One substrate heads only — no climate or flow series exist for this room. |
| 1Z | 43% | 2026-06-04 → 2026-06-10 | n=298 | Nodes reported 2026-06-04 → 2026-06-10 then went silent — all 12 devices offline >48 h (see Device Health). Do not grade steering from this window. |
| 10 section 2z | 43% | 2026-06-04 → 2026-06-10 | n=410 | Nodes reported 2026-06-04 → 2026-06-10 then went silent — all 5 devices offline >48 h (see Device Health). Do not grade steering from this window. |
| Jims Veggies (#1) | 29% | 2026-06-08 → 2026-06-12 | n=159 | Fresh install — first data 2026-06-08. Coverage will be full next audit. |
| Jims Veggies (#2) | 14% | 2026-06-10 → 2026-06-12 | n=279 | Fresh install — first data 2026-06-10. Coverage will be full next audit. |