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sensors:start [2026/01/21 21:13] bsamuelsensors:start [2026/01/22 22:07] (current) – [5. Water / Water Energy Monitoring] bsamuel
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 ====== Measuring, Monitoring & Documentation Systems ====== ====== Measuring, Monitoring & Documentation Systems ======
  
-The **Sensors Layer** defines all devices and measurement systems used by AOFS controllers to monitor irrigationenergy usage, water distribution, and environmental conditions +The **Sensors Layer** defines all devices and documentation systems used by AOFS controllers to ensure **safe operationauthoritative control, and auditable farm management**. 
 All AOFS-compliant deployments **must implement the sensors and documentation systems specified here**. All AOFS-compliant deployments **must implement the sensors and documentation systems specified here**.
  
-===== 1. Sensor Categories =====+===== 1. Sensor Layer Scope & Authority =====
  
-AOFS uses five main sensor categories:+AOFS sensors are classified by **operational authority**, not by technology type.
  
-  - **Soil Monitoring Sensors**   +Sensor inputs fall into four functional roles:
-  - **Weather Monitoring Sensors**   +
-  - **Water Monitoring Sensors**   +
-  - **Power / Energy Sensors**   +
-  - **Optical / Camera Monitoring Systems**  +
  
----+  * **Safety enforcement** (prevent damage or loss) 
 +  * **Authoritative control inputs** (drive irrigation decisions) 
 +  * **Documentation & audit** 
 +  * **Optimization & research**
  
-===== 2Soil Monitoring Sensors =====+AOFS controllers **must never depend on remote systems** to interpret or validate sensor data.
  
-**Purpose:** Measure soil conditions to optimize irrigation schedules +===== 2Critical Safety & Protection Sensors =====
  
-**Required Measurements:** +**Purpose:** Prevent equipment damage, flooding, dry-run pumps, and unsafe operating states.
-  Soil moisture (volumetric water content) per zone   +
-  - Soil temperature (optional but recommended)   +
-  - Electrical conductivity (optional; for salinity monitoring)  +
  
-**Placement Guidelines:** +**Mandatory Measurements:** 
-  - At least one sensor per irrigation zone   +  * Tank levels: LOW and FULL float switches 
-    - Multiple sensors for large or heterogeneous fields   +  * Flow meters on main and zoned pipelines 
-  - Sensors should be placed at root depth appropriate to the crop type  +  * Pressure sensors on pumps and main distribution lines 
 +  * Rainfall measurement for irrigation lockout
  
-**Data Collection:** +**Safety Requirements:** 
-  - Sample at a frequency suitable for crop needs (typically 15–60 min)   +  * These sensors **must directly enforce Field Controller fail-safes** 
-  - Data logged locally in Field Controller and synced with Farm/HQ controllers  +  * Operation must be fully local and offline 
 +  * Loss or invalid data from these sensors must trigger safe shutdown or degraded mode
  
-**Calibration & Maintenance:** +===== 3. Primary Agronomic Control Sensors =====
-  - Sensors must be calibrated according to manufacturer recommendations   +
-  - Regular inspection to prevent soil compaction or damage  +
  
----+==== Soil Monitoring Sensors ====
  
-===== 3. Weather Monitoring Sensors ===== +**Purpose:** Provide authoritative inputs for irrigation scheduling.
- +
-**Purpose:** Monitor on-site weather conditions to inform irrigation decisions and safety lockouts +
  
 **Required Measurements:** **Required Measurements:**
-  - Rainfall (e.g., tipping bucket rain gauge  +  * Soil moisture (volumetric water contentper irrigation zone 
-  - Ambient temperature   + 
-  - Relative humidity   +**Optional but Recommended:** 
-  - Wind speed (optional but recommended)   +  * Soil temperature 
-  - Solar radiation / light intensity (optional +  * Electrical conductivity (salinity)
  
 **Placement Guidelines:** **Placement Guidelines:**
-  - Rain gauges placed in open areas, away from obstructions   +  * At least one sensor per irrigation zone 
-  - Temperature and humidity sensors shielded from direct sunlight and precipitation   +  * Additional sensors for heterogeneous fields 
-  - Wind sensors mounted at standard height for consistent readings  +  * Placement at crop-appropriate root depth
  
-**Data Collection:** +==== Weather Monitoring Sensors ====
-  - Sample at frequency sufficient for crop and irrigation needs (typically 10–30 min)   +
-  - Logs sent to Field Controller for local decision-making and later synced with Farm/HQ controllers  +
  
-**Integration with AOFS:** +**Purpose:** Modify irrigation behavior and enforce environmental lockouts.
-  - Rainfall triggers **irrigation suspension / rain lockout**   +
-  - Temperature and humidity can refine irrigation thresholds and scheduling   +
-  - Optional predictive analytics using solar radiation and wind  +
  
-**Calibration & Maintenance:** +**Required Measurements:** 
-  - Regular inspection and cleaning of rain gauges   +  * Rainfall 
-  - Sensors must be calibrated according to manufacturer specifications   +  * Ambient temperature 
-  - Logs of calibration and maintenance events must be maintained  +  * Relative humidity
  
----+**Optional Measurements:** 
 +  * Wind speed 
 +  * Solar radiation / light intensity
  
-===== 4. Water Monitoring Sensors =====+**Integration with AOFS:** 
 +  * Rainfall triggers irrigation suspension 
 +  * Weather data refines thresholds and scheduling
  
-**Purpose:** Ensure safe and efficient water delivery +===== 4. Power / Energy Monitoring ===== 
 + 
 +**Purpose:** Protect electrical systems and support energy-aware operation.
  
 **Required Measurements:** **Required Measurements:**
-  - Tank levels: FULL and LOW float switches   +  * Pump power consumption 
-  - Flow meters on main and zoned pipelines   +  * Valve power consumption
-  - Pressure sensors for distribution lines   +
-  - Optional: rain gauges (redundant, for additional verification)  +
  
-**Placement Guidelines:** +**Optional Measurements:** 
-  - Tank sensors at critical fill/drain points   +  * Battery voltage and current 
-  - Flow meters before distribution manifolds   +  * Solar panel output
-  - Pressure sensors after pumps and at main lines  +
  
-**Safety Requirements:** +**Integration:** 
-  - Water sensors must enforce Field Controller fail-safes (pump cutoff, overflow prevention)   +  * Low-voltage or overload conditions must trigger fail-safe behavior 
-  - Must function independently of network connection  +  * Energy data may inform event prioritization and anomaly detection 
 + 
 +==== Grid Power Monitoring & Predictive Use ==== 
 + 
 +**Purpose:** Enable AOFS to safely use intermittent grid power and optimize energy costs. 
 + 
 +**Required Measurements (if grid is available):** 
 +  * Grid voltage, current, and frequency 
 +  * Short-term fluctuations and harmonics 
 +  * Availability signal (on/off) 
 + 
 +**Optional Measurements:** 
 +  * Historical grid availability patterns 
 +  * Probabilistic prediction of grid power for upcoming hours
  
----+**Integration & Control Logic:** 
 +  * AOFS must only allow grid power usage if parameters are within safe thresholds 
 +  * Automatic relays and actuators must cut off grid supply immediately on overvoltage, under-voltage, or unsafe frequency 
 +  * Predictive patterns can inform decisions, e.g., delaying high-load pump operations until grid is likely available 
 +  * All local safety thresholds remain authoritative and override probabilistic logic
  
-===== 5. Power / Energy Sensors =====+===== 5. Water Water Energy Monitoring =====
  
-**Purpose:** Monitor energy consumption and optimize PUE (productive use of electricity) +**Purpose:** Monitor and optimize water supply sources, including grid water, local wells, and storage tanks.
  
 **Required Measurements:** **Required Measurements:**
-  - DC battery voltage and current   +  * Tank LOW and FULL levels 
-  - Pump energy consumption   +  * Flow rate in main and zoned pipelines 
-  - Valve power usage   +  * Flow rate and pressure of grid water supply (if available) 
-  - Optional: solar panel output monitoring  +  * Availability signal for grid water (on/off)
  
-**Placement Guidelines:** +**Optional Measurements:** 
-  - Measure energy at the main DC bus and key loads   +  * Historical grid water supply patterns 
-  - Optional per-zone energy monitoring for detailed efficiency analysis  +  * Probability of grid water availability in next hours or days 
 +  * Water quality indicators (salinity, turbidity)
  
-**Integration:** +**Integration & Control Logic:** 
-  - Data feeds into Field Controller for fail-safe shutdowns on low voltage   +  * AOFS may delay pumping from wells if probability of grid water availability is high 
-  - Logged for auditing and analytics  +  * Partial tank fill strategies: maintain mandatory minimum levels locally, avoid overfilling if grid water is likely 
 +  * Safety thresholds for tank levels must always be enforced, independent of probabilistic logic 
 +  * Logging of decisions, sensor readings, and probabilities is required for learning and optimization
  
----+===== 6. Human Input / External Event Logging =====
  
-===== 6Optical / Camera Monitoring Systems =====+**Purpose:** Capture critical farm activities not measurable by sensors.
  
-**Purpose:** Supplement sensor data with visual field observations +AOFS treats human input as **first-class data**, equal to automated sensor measurements.
  
-**Use Cases:** +**Examples of Loggable Events:** 
-  - Crop growth monitoring   +  * Fertilizer application 
-  Pest or disease detection (optional, non-critical for irrigation)   +  * Manual irrigation or drainage 
-  - Soil surface moisture and coverage assessment  +  Pest or disease treatment 
 +  * Planting, pruning, or harvest activities
  
 **Requirements:** **Requirements:**
-  - Cameras must be oriented for optimal coverage of zones   +  * All events must be timestamped 
-  - Images or video must be timestamped and logged   +  * Events must be linked to a field or irrigation zone 
-  - Data should integrate with Field Controller for automated or semi-automated analysis  +  * Operator identity must be recorded 
 +  * Full audit trail for edits or deletions is required
  
----+===== 7. Optical / Camera Documentation Systems =====
  
-===== 7Data Logging & Documentation =====+**Purpose:** Provide visual documentation for review, auditing, and optional analysis.
  
-  - All sensor readings **must be logged locally** on the Field Controller   +**AOFS Scope:** 
-  - Logs include timestamp, sensor ID, measured value, and status/quality flags   +  * Still images only 
-  - Data must be synced with Farm Controller for aggregation and with HQ Controller for analytics   +  * No video streaming requirements 
-  - Field workers may document crop growth, harvest outcomes, and environmental observations via **Field Survey Interfaces**, complementing automated measurements  + 
 +**Use Cases:** 
 +  * Crop development tracking 
 +  * Soil surface condition documentation 
 +  * Pest or disease observation 
 + 
 +**Requirements:** 
 +  * Images must be timestamped 
 +  * Camera ID and zone reference required 
 +  Images stored locally on the Field Controller 
 +  * Optional synchronization with Farm and HQ Controllers
  
----+AI-based image analysis is **explicitly optional** and must not interfere with core logging or manual review.
  
-===== 8. Calibration Maintenance =====+===== 8. Data Logging Synchronization Rules =====
  
-  All sensors **must be regularly calibrated** according to manufacturer specifications   +  All sensor readings and human-input events **must be logged locally** 
-  - Field inspections are required to prevent sensor drift, damage, or misplacement   +  * Logs must include: 
-  AOFS-compliant deployments **must maintain logs of calibration and maintenance events**  +    * Timestamp 
 +    * Source or sensor ID 
 +    * Measured value or event data 
 +    * Status or quality flags 
 +  * Synchronization follows AOFS federation rules 
 +  Loss of connectivity must never result in data loss 
 +  Grid power and water predictive measurements and decisions must be logged, including: 
 +    - Probability estimates for predictive logic 
 +    - Decisions made (pump on/off, fill levels) 
 +    - Outcome of the decisions for future optimization
  
----+===== 9. Calibration & Maintenance =====
  
-===== 9. Compliance Notes =====+  * All sensors must be calibrated according to manufacturer specifications 
 +  * AOFS deployments must log: 
 +    * Calibration events 
 +    * Maintenance actions 
 +    * Sensor replacements 
 +  * Calibration and maintenance logs are auditable and synchronized
  
-  - All AOFS deployments **must implement at minimum**:   +===== 10. Compliance Requirements =====
-    - Soil moisture per irrigation zone   +
-    - Tank LOW/FULL switches   +
-    - Flow meters and pressure sensors on all irrigation manifolds   +
-    - Power monitoring for pumps and valves   +
-    - Rainfall measurement for irrigation lockout  +
  
-  - Optional sensors (temperature, conductivity, wind speed, solar radiation, cameras) are recommended for **advanced optimization**, but not mandatory  +Minimum mandatory implementation:
  
-  - All data must be **timestamped, logged locally, and synchronized** according to federation rules  +  * Soil moisture sensors per irrigation zone 
 +  Tank LOW and FULL level sensors 
 +  Flow meters and pressure sensors on irrigation systems 
 +  Power monitoring for pumps and valves 
 +  * Rainfall measurement for irrigation lockout
  
----+Optional sensors enhance optimization and research but **do not affect baseline compliance**.
  
-===== 10. References =====+===== 11. References =====
  
-  [[architecture:field_controller:start|Field Controller Layer]]   +  [[architecture:field_controller:start|Field Controller Layer]] 
-  [[architecture:farm_controller:start|Farm Controller Layer (Local / Federated)]]   +  [[architecture:farm_controller:start|Farm Controller Layer (Local / Federated)]] 
-  [[hydraulics|Hydraulic & Water Systems]]   +  [[hydraulics:start|Hydraulic & Water Systems]] 
-  [[electrical|Electrical & Control Interfaces]]   +  [[electrical:start|Electrical & Control Interfaces]]
-  - [[optical|Optical Monitoring (Cameras)]]  +
  
sensors/start.1769029980.txt.gz · Last modified: by bsamuel

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