AROYA
AROYA · 2-Week Facility Audit · Cultivation IntelligenceAROYA · Auditoría de 2 Semanas · Inteligencia de Cultivo

Bloomfield Innovations · Substrate, Steering & Irrigation · First AuditBloomfield Innovations · Sustrato, Dirección y Riego · Primera Auditoría

First AROYA audit for this facility — there are no prior commitments to grade against. 14-day trace of the 10 rooms that are actually returning data, out of 17 defined. This facility has no climate sensors, so this is a substrate-only read: moisture, substrate EC and substrate temperature. Air temperature, RH, VPD and CO₂ are not measured anywhere at Bloomfield.Primera auditoría AROYA de esta instalación. Trazado de 14 días de las 10 salas con datos, de 17 definidas.
FacilityBloomfield Innovations (ID 4497 · Org 3515) Window2026-06-29 → 2026-07-13 (14 days) Rooms10 of 17 returning data Harvest groups3 active (G 2, G 3, JR 3) — room mapping inferred from naming Irrigation controllernone registered in AROYA SourceAROYA public_api room chart (stitched 2-day windows, ~3-min raw) Report date2026-07-13

1. Headline FindingsHallazgos Principales

Rooms with full 14d coverageSalas con cobertura 14d
8 / 10
~2,240 raw points per room, 2026-06-29 13:03 → 2026-07-13 12:54 UTC. 1Z and Jims Room #2 only came online 2026-07-11.~2.240 puntos por sala.
Greenhouse #3 substrate ECEC sustrato Invernadero #3
8.18 mS/cm
stacked +3.48 mS/cm across the window, peaking at 13.3 in Zone 6. Above the 6.0–12.0 early-flower band and still climbing.subió +3,48 mS/cm en la ventana.
Greenhouse #2 substrate ECEC sustrato Invernadero #2
3.7 mS/cm
harvesting 2026-07-21 (8 days out) but substrate EC is roughly half the 6.0–8.0 ripening band and flat. The EC stack for ripening is not happening.cosecha 2026-07-21 pero EC muy por debajo de la banda de maduración.
Greenhouse #1 drybackDryback Invernadero #1
5.7 pp
absolute pp, and zero shots resolved in 14 days. VWC sits pinned at 51–57%. P3 is not doing any work in this room.pp absolutos, y cero disparos resueltos en 14 días.
Irrigation telemetryTelemetría de riego
0
no drip or drain volume anywhere — no controller is integrated. Every shot count below is derived from VWC step-ups, not read from a log.ningún volumen de goteo o drenaje — ningún controlador integrado.
Climate sensorsSensores de clima
0
no air temperature, RH, VPD or CO₂ measured at this facility. Sections 3, 4 and 6 of this report are therefore short.no se mide temperatura del aire, HR, VPD ni CO₂.
The one thing to fix this week. Greenhouse #3 is stacking substrate EC hard (+3.48 mS/cm over 14 days, room mean 8.18, Zone 6 peaking at 13.3) while running a 21.7 pp dryback. That is a legitimate generative push for a room ~2–3 weeks into flower — but Zone 6 is now above the top of the 6.0–12.0 band and there is no runoff measurement anywhere to tell you whether the stack is being managed or just accumulating. Without a controller reporting drip and drain, EC stacking in this room is running blind.Lo único a corregir esta semana: Invernadero #3 está acumulando EC agresivamente sin medición de drenaje.

2. Prior-Commitment ReviewRevisión de Compromisos Previos

No prior AROYA commitments on file — this is the first audit for Bloomfield Innovations. There is no customer wiki, no previous report, and no recorded targets or agreed setpoints for this facility. Nothing below is graded against a previous promise, and no facility history has been assumed. Where a number would normally be compared to a customer target, this report says “open question, not documented — to clarify” instead of inventing one.No hay compromisos AROYA previos registrados — esta es la primera auditoría.

Questions to close on the callPreguntas para la llamada

3. HVAC CapacityCapacidad HVAC

Cannot be assessed — no climate sensors exist at this facility. HVAC capacity is normally read from air temperature, RH and VPD against lights-on load. Bloomfield has no ATMOS, no climate station and no CO₂ sensor in the AROYA device registry, so there is no air-side data to work with. This is not a data outage; the hardware was never installed.No se puede evaluar — no existen sensores de clima en esta instalación.

The only proxy available is substrate temperature, and it tells a real story. In the greenhouses it swings from ~50 °F overnight to ~100–110 °F at midday — a 45–60 °F daily excursion in the root zone. In the indoor rooms (Jims Veggies, Jims Room #3) it stays in a much tighter 73–86 °F band. That difference is the clearest evidence in the dataset that the greenhouses are effectively unconditioned and the indoor rooms are conditioned. Root-zone temperature that high at midday will suppress water uptake regardless of what the irrigation schedule says — and it is invisible to the grow team today because nothing is measuring it as an alert.El único proxy disponible es la temperatura del sustrato, que oscila 50–110 °F en los invernaderos.

Recommendation: if Bloomfield wants AROYA to say anything useful about climate, three ATMOS / climate stations (one per greenhouse) is the smallest purchase that unlocks VPD, transpiration and HVAC/vent-side analysis. Right now half the crop-steering picture is missing.Recomendación: tres estaciones climáticas (una por invernadero) desbloquearían el análisis de VPD.

4. Climate ↔ Irrigation InterplayInteracción Clima ↔ Riego

Partially assessable only. Without VPD there is no direct measure of transpirational demand, so the normal “VPD drives ET drives dryback” chain cannot be closed. What can be shown is the relationship between substrate temperature and dryback, using the substrate-temp diurnal cycle to infer lights-on hours.Solo parcialmente evaluable. Sin VPD no hay medida directa de demanda transpiratoria.

Lights-on hours below are inferred from the substrate-temperature diurnal cycle (hours above the daily midpoint), not read from a lighting schedule. In the greenhouses that inference is really tracking solar gain rather than a lamp, which is why Greenhouse #1 reads 10 h and Jims Veggies (#2) reads 18 h.Las horas de luz se infieren del ciclo diurno de temperatura del sustrato.

RoomSalaInferred lights-on (h)Horas luzSubstrate temp lights-on (°F)Temp sustrato luzSubstrate temp lights-off (°F)Temp sustrato oscuridadMean dryback (absolute pp)Dryback medio (pp abs)ReadLectura
600 (Room 1)1173.666.529.3deep dryback — strong generative pushdryback profundo
600 (Room 2)1175.071.419.6working drybackdryback funcional
Greenhouse #11093.768.75.7substrate never dries — P3 is not being used as a leverel sustrato nunca se seca
Greenhouse #21280.559.919.9working drybackdryback funcional
Greenhouse #31186.660.821.7working drybackdryback funcional
Jims Room #31675.875.421.6working drybackdryback funcional
Jims Veggies (#1)1780.377.63.8substrate never dries — P3 is not being used as a leverel sustrato nunca se seca
Jims Veggies (#2)1881.478.024.5working drybackdryback funcional
1Z488.783.219.9working drybackdryback funcional
Jims Room #2777.676.214.2working drybackdryback funcional
The greenhouses run a 45–60 °F root-zone excursion every day. A substrate that hits 100 °F+ at midday will drive evaporative loss that has nothing to do with plant transpiration — which means dryback in Greenhouse #2 and #3 is not a clean signal of plant activity the way it would be in a conditioned room. Treat the greenhouse dryback numbers as directional, not diagnostic, until there is air-side data to separate transpiration from evaporation.Los invernaderos tienen excursiones de 45–60 °F en la zona radicular cada día.

5. Per-Room Deep DiveAnálisis por Sala

600 (Room 1)

No harvest group mapped to this room in the API · Flower (phase not documented)Sin grupo de cosecha mapeado · Flower (phase not documented)
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)29.3 pp VWC peakVWC pico71.7% VWC troughVWC valle42.3% Substrate ECEC sustrato2.46 mS/cm EC stack over 14dAcumulación EC 14d+0.56 Shots (derived)Disparos (derivado)6.8/day ZonesZonas2 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 20–30 pp · substrate EC 6.0–12.0

600 (Room 2)

No harvest group mapped to this room in the API · Flower (phase not documented)Sin grupo de cosecha mapeado · Flower (phase not documented)
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)19.6 pp VWC peakVWC pico39.9% VWC troughVWC valle20.3% Substrate ECEC sustrato3.75 mS/cm EC stack over 14dAcumulación EC 14d+2.85 Shots (derived)Disparos (derivado)3.2/day ZonesZonas2 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 20–30 pp · substrate EC 6.0–12.0

Greenhouse #1

No harvest group mapped to this room in the API · Phase not documentedSin grupo de cosecha mapeado · Phase not documented
Steering intentIntenciónvegetatively-steered Dryback (absolute pp)Dryback (pp abs)5.7 pp VWC peakVWC pico56.7% VWC troughVWC valle51.0% Substrate ECEC sustrato3.48 mS/cm EC stack over 14dAcumulación EC 14d-0.76 Shots (derived)Disparos (derivado)0/day ZonesZonas3 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 5–15 pp · substrate EC 3.0–5.0 · 3–5% shots

Greenhouse #2

HG G 2 5/19-7/21 · 720 plants · harvest 2026-07-21 · Ripening
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)19.9 pp VWC peakVWC pico69.1% VWC troughVWC valle49.1% Substrate ECEC sustrato3.7 mS/cm EC stack over 14dAcumulación EC 14d+0.52 Shots (derived)Disparos (derivado)2.7/day ZonesZonas6 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 25–35 pp · substrate EC 6.0–8.0 · 6–10% shots

Greenhouse #3

HG G 3 6/26-8/28 · 864 plants · harvest 2026-08-28 · Early flower / stretch
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)21.7 pp VWC peakVWC pico52.3% VWC troughVWC valle30.5% Substrate ECEC sustrato8.18 mS/cm EC stack over 14dAcumulación EC 14d+3.48 Shots (derived)Disparos (derivado)4.2/day ZonesZonas6 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 20–30 pp · substrate EC 6.0–12.0 · 6–10% shots · P0 delay 120–240 min

Jims Room #3

HG JR 3 6/19-8/21 · 216 plants · harvest 2026-08-21 · Stretch → bulking
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)21.6 pp VWC peakVWC pico68.0% VWC troughVWC valle46.4% Substrate ECEC sustrato7.31 mS/cm EC stack over 14dAcumulación EC 14d+1.93 Shots (derived)Disparos (derivado)4/day ZonesZonas3 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 12–18 pp · substrate EC 4.0–7.0 · 3–5% shots

Jims Veggies (#1)

No harvest group mapped to this room in the API · Phase not documentedSin grupo de cosecha mapeado · Phase not documented
Steering intentIntenciónvegetatively-steered Dryback (absolute pp)Dryback (pp abs)3.8 pp VWC peakVWC pico71.9% VWC troughVWC valle68.1% Substrate ECEC sustrato3.45 mS/cm EC stack over 14dAcumulación EC 14d+0.23 Shots (derived)Disparos (derivado)0/day ZonesZonas2 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 5–15 pp · substrate EC 3.0–5.0

Jims Veggies (#2)

No harvest group mapped to this room in the API · Phase not documentedSin grupo de cosecha mapeado · Phase not documented
Steering intentIntenciónvegetatively-steered Dryback (absolute pp)Dryback (pp abs)24.5 pp VWC peakVWC pico72.2% VWC troughVWC valle47.8% Substrate ECEC sustrato4.35 mS/cm EC stack over 14dAcumulación EC 14d+1.53 Shots (derived)Disparos (derivado)2.3/day ZonesZonas2 CoverageCobertura100.0%
Phase targetObjetivo de fase: dryback 5–15 pp · substrate EC 3.0–5.0

1Z

No harvest group mapped to this room in the API · Phase not documentedSin grupo de cosecha mapeado · Phase not documented
Steering intentIntenciónunknown Dryback (absolute pp)Dryback (pp abs)19.9 pp VWC peakVWC pico21.9% VWC troughVWC valle2.0% Substrate ECEC sustrato2.79 mS/cm EC stack over 14dAcumulación EC 14d+5.39 Shots (derived)Disparos (derivado)2/day ZonesZonas3 CoverageCobertura14.3%
Phase targetObjetivo de fase: targets not applicable — 2 days of data

Jims Room #2

No harvest group mapped to this room in the API · Phase not documentedSin grupo de cosecha mapeado · Phase not documented
Steering intentIntencióngeneratively-steered Dryback (absolute pp)Dryback (pp abs)14.2 pp VWC peakVWC pico53.7% VWC troughVWC valle39.5% Substrate ECEC sustrato6.41 mS/cm EC stack over 14dAcumulación EC 14d+0.06 Shots (derived)Disparos (derivado)1.5/day ZonesZonas3 CoverageCobertura14.3%
Phase targetObjetivo de fase: dryback 12–18 pp · substrate EC 4.0–7.0

Zone-level detailDetalle por zona

RoomSalaZoneZonaVWC max %VWC máxVWC min %VWC mínVWC mean %VWC mediaSubstrate EC meanEC mediaSubstrate EC maxEC máxSubstrate temp mean °FTemp media
600 (Room 1)Lantz74.434.955.12.713.5769.9
600 (Room 1)Game over74.140.160.92.143.2369.6
600 (Room 2)Lantz74.50.133.43.875.9873.7
600 (Room 2)Lantz 272.32.855.03.37.4172.5
Greenhouse #1zone 173.859.566.43.874.8679.8
Greenhouse #1Zone 256.439.550.33.314.0780.0
Greenhouse #1Zone 350.138.044.63.414.5977.8
Greenhouse #2Zone 174.645.360.93.395.4370.3
Greenhouse #2Zone 274.646.559.73.885.1970.3
Greenhouse #2Zone 374.833.157.24.76.4270.8
Greenhouse #2Zone 472.840.958.33.194.5669.4
Greenhouse #2Zone 573.040.459.32.865.2270.0
Greenhouse #2Zone 674.541.558.64.297.570.3
Greenhouse #3Zone 166.919.836.87.1610.1371.9
Greenhouse #3Zone 278.223.843.08.3311.5372.3
Greenhouse #3Zone 372.221.338.97.5611.3372.9
Greenhouse #3Zone 468.518.438.27.9511.8374.6
Greenhouse #3Zone 568.518.739.38.3811.6372.1
Greenhouse #3Zone 6 EC > 1264.425.143.29.513.2972.4
Jims Room #3Zone 178.639.759.27.017.8675.4
Jims Room #3Zone 278.032.952.97.229.2975.9
Jims Room #3Zone 375.133.353.37.499.8375.6
Jims Veggies (#1)Zone 176.654.470.23.524.0878.6
Jims Veggies (#1)Zone 276.667.872.43.284.180.5
Jims Veggies (#2)Zone 277.80.354.64.886.5381.7
Jims Veggies (#2)Zone 178.721.367.33.776.3379.6
1ZKeeKee30.70.13.06.096.884.6
1ZBlue Dream47.16.041.06.086.8782.3
1ZKeeKee 246.05.19.21.234.8584.2
Jims Room #2Zone 152.746.450.26.026.0976.9
Jims Room #2Zone 249.732.245.46.26.3878.9
Jims Room #2Zone 359.142.254.57.087.2976.6
Zones flagged with zero-reads are dropping to 0.0% VWC / 0.0 mS/cm intermittently. A true 0.0% moisture reading in a wet substrate is not physically plausible — these are sensor dropouts and have been excluded from all room aggregates. Jims Veggies (#2) and 1Z are the affected rooms.Las zonas marcadas con lecturas cero son caídas del sensor y se excluyen de los agregados.

6. Phase Biophysics — Room Environment TraceBiofísica de Fase

Select a room to drive every chart below. Turn on Compare to overlay multiple rooms on the same metric. Charts are per-metric, not per-room. Air-side metrics (air temperature, VPD, RH, CO₂) render empty by design — Bloomfield has no climate sensors.Selecciona una sala para controlar todos los gráficos. Activa Comparar para superponer salas.

Substrate moisture — daily peak & trough (%)Humedad de sustrato — pico y valle (%)

Dryback — absolute pp (peak VWC − pre-irrigation low)Dryback — pp absolutos

Substrate EC (mS/cm) & day-over-day EC stackingEC de sustrato y acumulación

Shot count per day (derived from VWC step-ups)Disparos por día (derivado)

Substrate temperature — lights-on vs lights-off (°F)Temperatura de sustrato

ET proxy — VWC decay rate during P3 (pp/hour)Proxy ET — tasa de secado en P3

Air temperature & VPD — NO SENSORS AT THIS FACILITYTemperatura del aire y VPD — SIN SENSORES

The air-temperature / VPD panel is intentionally empty. It is left in the report so the gap is visible rather than silently omitted — this is the single biggest sensing hole at Bloomfield.El panel de temperatura del aire está vacío intencionalmente.

7. Irrigation Shot-CycleCiclo de Riego

Derivation footnote — read this before using any number in this section. Bloomfield has no irrigation controller integrated with AROYA. There is no drip volume, no drain volume and no shot log anywhere in the API. Every shot count in this report is derived from the substrate moisture trace: a shot is counted whenever VWC rises by ≥ 2.0 absolute pp between consecutive 3-minute samples. That method under-counts small maintenance pulses and cannot see a shot that produced no measurable rise (a fully saturated substrate, or a shot that missed the sensor). It also cannot measure runoff at all — so runoff percentage, drip:drain ratio and leaching fraction are unknown for this facility.Nota de derivación: Bloomfield no tiene controlador de riego integrado con AROYA. Los disparos se derivan de los saltos de VWC (≥ 2,0 pp).

The 4-phase day, as the data reads itEl día de 4 fases, según los datos

P0 (Activation) — lights-on to first shot. In the greenhouses the substrate warms for 2–4 hours before the first resolvable step-up, which is a genuinely long P0 delay and consistent with a generative intent. In Greenhouse #1 and Jims Veggies (#1) there is no resolvable P0 onset at all, because no shot ever produces a 2 pp rise.
P1 (Ramp-up) — small shots back to field capacity and first runoff. Cannot be confirmed: with no drain measurement, first runoff is unobservable. The VWC recovery to peak is visible; whether it produced runoff is not.
P2 (Maintenance) — pulses holding VWC at field capacity while managing substrate EC via runoff. Greenhouse #3 and Jims Room #3 show a clear P2 with 4 resolvable shots per day. Greenhouse #1 and Jims Veggies (#1) show essentially a permanent P2 with no dry-down.
P3 (Dry-down) — last shot to next morning; the primary steering lever. This is where the facility splits cleanly in two.
P0 activación · P1 rampa · P2 mantenimiento · P3 secado.

RoomSalaSteering intentIntenciónShots/day (derived)Disparos/díaDryback (absolute pp)Dryback (pp abs)VWC peak %VWC picoSubstrate ECEC sustratoDoes the data agree with the intent?¿Los datos coinciden con la intención?
600 (Room 1)generatively-steered6.829.371.72.46agreescoincide
Yes. Deepest dryback in the facility at 29.3 pp with 6.8 shots/day — an aggressive, well-resolved P1/P2/P3 cycle. Substrate EC 2.46 is low for flower, though: the room is being steered generatively on water but not on EC.
600 (Room 2)generatively-steered3.219.639.93.75agreescoincide
Yes on EC (+2.85 stack), partially on water. 19.6 pp dryback with VWC peaking at only 39.9% — the substrate never reaches a high field capacity, so the dryback is deep in proportional terms but the absolute water buffer is thin.
Greenhouse #1vegetatively-steered05.756.73.48contradictscontradice
No. 5.7 pp dryback, VWC pinned at 51–57%, zero resolvable shots in 14 days and substrate EC falling (−0.76). The substrate is being held at field capacity continuously. P3 is doing no work at all. If this room is meant to be flowering, it is being steered fully vegetative.
Greenhouse #2generatively-steered2.719.969.13.7contradictscontradice
No. This room harvests in 8 days and should be restacking substrate EC into the 6.0–8.0 ripening band with a 25–35 pp dryback. It is running EC 3.7 (flat, +0.52 over 14d) and a 19.9 pp dryback with VWC peaking at 69%. It is being held vegetative through ripening. This is the clearest missed steering lever in the facility.
Greenhouse #3generatively-steered4.221.752.38.18agreescoincide
Yes. 21.7 pp dryback and a +3.48 mS/cm EC stack is textbook generative steering for weeks 2–3 of flower. The dryback sits inside the 20–30 pp band and the EC is inside 6.0–12.0 — but Zone 6 has run to 13.3, above the band, with no runoff measurement to manage it.
Jims Room #3generatively-steered421.668.07.31agreescoincide
Broadly yes. 21.6 pp dryback and EC 7.31 stacking +1.93 is a reasonable stretch-to-bulking profile, though dryback is above the 12–18 pp bulking band — it is still steering like stretch.
Jims Veggies (#1)vegetatively-steered03.871.93.45contradictscontradice
No. 3.8 pp dryback and VWC at 68–72% for 14 straight days. Permanently saturated. If this is genuinely a vegetable crop the profile may be intentional — open question, not documented.
Jims Veggies (#2)vegetatively-steered2.324.572.24.35partialparcial
Partially. 24.5 pp dryback and EC stacking +1.53 looks generative, but this room has the worst sensor dropout in the facility (frequent 0.0% reads), so the numbers carry the least confidence.
1Zunknown219.921.92.79partialparcial
Cannot judge — only 2 days of data and heavy sensor dropout. VWC peaks at just 21.9%, which is implausibly low for a healthy substrate and points at a sensor placement or calibration problem rather than a steering problem.
Jims Room #2generatively-steered1.514.253.76.41partialparcial
Cannot judge — only 2 days of data (came online 2026-07-11). Early read: 14.2 pp dryback, substrate EC 6.41. Re-audit in two weeks.
Substrate is not documented. AROYA room config declares SOILLESS across the board and the per-probe config is a mix of SOILLESS and GENERIC. Observed field capacity ranges from 52% (Greenhouse #3) to 78% (Jims Veggies) depending on room — that spread is too wide to be a single medium. A 20 pp dryback means something very different in rockwool (zero CEC, extreme steerability, low forgiveness) than in coco (high CEC, moderate forgiveness, Cal/Mg lockout risk under aggressive generative steering). Until the medium is confirmed, none of the recommendations below push to the extremes of any phase band. Open question, not documented — to clarify on the call.El sustrato no está documentado. La capacidad de campo observada varía de 52% a 78% según la sala.

8. ConfigurationConfiguración

ItemElementoState in AROYAEstado en AROYAActionAcción
Rooms definedSalas definidas177 have zero devices assigned. Archive or re-populate.Archivar o re-poblar 7 salas.
Zones definedZonas definidas8328 of them sit in the dark “Section” rooms.28 en salas sin datos.
Climate sensorsSensores de clima0No VPD, no HVAC analysis possible. Biggest sensing gap.Sin VPD ni análisis HVAC.
Irrigation controllerControlador de riegoNone registeredNingunoOpenSprinkler not present in AROYA. See device-health report.OpenSprinkler no está en AROYA.
Substrate typeTipo de sustratoSOILLESS / GENERICInconsistent and probably not accurate. Confirm the real medium and set it per room.Confirmar el medio real.
Sensor calibrationCalibraciónNONE (all 59)No substrate-specific calibration applied to any probe. With the medium unconfirmed this is expected, but it means absolute VWC carries a systematic offset.Sin calibración específica de sustrato.
Cultivars registeredCultivares7Game Over, Gelato, Lantz, Pink Runtz, Purple Cream, Rockets, Top Gun
Active harvest groupsGrupos de cosecha activos3G 2 (720 plants, harvest 7/21) · G 3 (864, 8/28) · JR 3 (216, 8/21). Room and phase fields are null in the API — the room mapping in this report is inferred from HG naming.Los campos de sala y fase son nulos en la API.
Reporting cadenceCadencia180 s3-minute interval on every device. Healthy.Intervalo de 3 minutos. Sano.

9. RecommendationsRecomendaciones

#RecommendationRecomendaciónWhyPor quéPriorityPrioridad
1Get the OpenSprinkler onto 192.168.1.x and registered in AROYA.Poner el OpenSprinkler en 192.168.1.x y registrarlo en AROYA.It is the reason this meeting exists, and it is also the reason every irrigation number in this report is derived rather than measured. Until a controller reports drip and drain, EC stacking in Greenhouse #3 is being run blind and runoff is unknown facility-wide.Sin controlador, cada número de riego es derivado, no medido.P0
2Restack substrate EC in Greenhouse #2 before the 7/21 harvest.Reacumular EC de sustrato en Invernadero #2 antes de la cosecha del 21/7.720 plants harvest in 8 days at substrate EC 3.7 and a 19.9 pp dryback. Ripening wants 6.0–8.0 mS/cm and a 25–35 pp dryback. Deepen P3 and lengthen the P0 delay; the EC will follow. This is the highest-value cultivation move available this week.720 plantas se cosechan en 8 días con EC 3,7. La maduración requiere 6,0–8,0.P0
3Investigate Greenhouse #3 Zone 6 — substrate EC has run to 13.3 mS/cm.Investigar Zona 6 del Invernadero #3 — EC hasta 13,3 mS/cm.Above the top of the 6.0–12.0 early-flower band and still climbing (+3.48 over the window). With no runoff measurement there is no way to tell whether this is a managed stack or salt accumulation. If the medium turns out to be coco, this is a Cal/Mg lockout risk.Por encima de la banda 6,0–12,0 y subiendo.P1
4Explain Greenhouse #1: zero resolvable shots and a 5.7 pp dryback over 14 days.Explicar Invernadero #1: cero disparos y dryback de 5,7 pp en 14 días.VWC pinned at 51–57% with substrate EC actually falling. Either the room is on continuous low-volume fertigation that never produces a 2 pp step, or the sensors are not in the irrigated column. Both are worth 10 minutes onsite.VWC fijo en 51–57% con EC cayendo.P1
5Buy three climate stations — one per greenhouse.Comprar tres estaciones climáticas — una por invernadero.Bloomfield has zero air-side sensing. No VPD means no transpiration model, no HVAC/vent analysis, and no way to separate real dryback from a 100 °F midday substrate evaporating. It is the cheapest single purchase that doubles what AROYA can tell this facility.Cero sensores de aire. Sin VPD no hay modelo de transpiración.P1
6Recover the two repeaters that dropped on 2026-07-13, and decide on the five silent since April.Recuperar los dos repetidores caídos el 13/7 y decidir sobre los cinco en silencio desde abril.H3400002789 and H3400002790 went quiet at 05:47 UTC today on 100% battery — recoverable. The five April casualties are an RMA / trade-in conversation. None of them are currently costing data, but offline repeaters will not receive the WP4 → WP5 push.Dos repetidores recuperables; cinco para RMA / trade-in.P2
7Fix the sensor dropouts in Jims Veggies (#2) and 1Z.Corregir las caídas de sensor en Jims Veggies (#2) y 1Z.Both rooms intermittently report 0.0% VWC and 0.0 mS/cm, which is not physically possible in a wet substrate. 1Z also peaks at only 21.9% VWC. Likely a probe seating or wiring issue, not a network issue — every radio in both rooms is online at 100% battery.Ambas salas reportan 0,0% VWC intermitentemente.P2
8Archive or re-populate the seven dark rooms.Archivar o re-poblar las siete salas sin datos.Section 1, section 2, Section 5–8 and 10 section 2z carry 28 named zones and no sensors. They clutter every room list and every report. Either put probes back in them or archive them.Siete salas con 28 zonas nombradas y sin sensores.P3
9Set the substrate type correctly, per room.Configurar el tipo de sustrato correctamente, por sala.Everything is currently SOILLESS or GENERIC with NONE calibration. Observed field capacity runs 52–78% across rooms, which is not one medium. Correct substrate config is what makes absolute VWC and dryback targets meaningful.Todo está en SOILLESS/GENERIC sin calibración.P3

10. Data QualityCalidad de Datos

RoomSalaFirst point (UTC)Primer puntoLast point (UTC)Último puntoCoverageCobertura
600 (Room 1)2026-06-29 13:032026-07-13 12:54100.0%
600 (Room 2)2026-06-29 13:032026-07-13 12:54100.0%
Greenhouse #12026-06-29 13:032026-07-13 12:54100.0%
Greenhouse #22026-06-29 13:032026-07-13 12:54100.0%
Greenhouse #32026-06-29 13:032026-07-13 12:54100.0%
Jims Room #32026-06-29 13:032026-07-13 13:00100.0%
Jims Veggies (#1)2026-06-29 13:032026-07-13 13:00100.0%
Jims Veggies (#2)2026-06-29 13:032026-07-13 13:00100.0%
1Z2026-07-11 13:002026-07-13 13:0014.3%
Jims Room #22026-07-11 13:002026-07-13 12:5414.3%
Section 1dark — no devices assignedsin dispositivos
section 2dark — no devices assignedsin dispositivos
Section 5dark — no devices assignedsin dispositivos
Section 6dark — no devices assignedsin dispositivos
Section 7dark — no devices assignedsin dispositivos
Section 8dark — no devices assignedsin dispositivos
10 section 2zdark — no devices assignedsin dispositivos

Everything I could not verifyTodo lo que no pude verificar