The Sensors Layer defines all devices and measurement systems used by AOFS controllers to monitor irrigation, energy usage, water distribution, and environmental conditions. All AOFS-compliant deployments must implement the sensors and documentation systems specified here.

AOFS uses five main sensor categories:

• Soil Monitoring Sensors
• Weather Monitoring Sensors
• Water Monitoring Sensors
• Power / Energy Sensors
• Optical / Camera Monitoring Systems

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Purpose: Measure soil conditions to optimize irrigation schedules.

Required Measurements:

• Soil moisture (volumetric water content) per zone
• Soil temperature (optional but recommended)
• Electrical conductivity (optional; for salinity monitoring)

Placement Guidelines:

• At least one sensor per irrigation zone
  • Multiple sensors for large or heterogeneous fields
• Sensors should be placed at root depth appropriate to the crop type

Data Collection:

• Sample at a frequency suitable for crop needs (typically 15–60 min)
• Data logged locally in Field Controller and synced with Farm/HQ controllers

Calibration & Maintenance:

• Sensors must be calibrated according to manufacturer recommendations
• Regular inspection to prevent soil compaction or damage

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Purpose: Monitor on-site weather conditions to inform irrigation decisions and safety lockouts.

Required Measurements:

• Rainfall (e.g., tipping bucket rain gauge)
• Ambient temperature
• Relative humidity
• Wind speed (optional but recommended)
• Solar radiation / light intensity (optional)

Placement Guidelines:

• Rain gauges placed in open areas, away from obstructions
• Temperature and humidity sensors shielded from direct sunlight and precipitation
• Wind sensors mounted at standard height for consistent readings

Data Collection:

• 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:

• 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:

• Regular inspection and cleaning of rain gauges
• Sensors must be calibrated according to manufacturer specifications
• Logs of calibration and maintenance events must be maintained

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Purpose: Ensure safe and efficient water delivery.

Required Measurements:

• Tank levels: FULL and LOW float switches
• Flow meters on main and zoned pipelines
• Pressure sensors for distribution lines
• Optional: rain gauges (redundant, for additional verification)

Placement Guidelines:

• Tank sensors at critical fill/drain points
• Flow meters before distribution manifolds
• Pressure sensors after pumps and at main lines

Safety Requirements:

• Water sensors must enforce Field Controller fail-safes (pump cutoff, overflow prevention)
• Must function independently of network connection

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Purpose: Monitor energy consumption and optimize PUE (productive use of electricity).

Required Measurements:

• DC battery voltage and current
• Pump energy consumption
• Valve power usage
• Optional: solar panel output monitoring

Placement Guidelines:

• Measure energy at the main DC bus and key loads
• Optional per-zone energy monitoring for detailed efficiency analysis

Integration:

• Data feeds into Field Controller for fail-safe shutdowns on low voltage
• Logged for auditing and analytics

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Purpose: Supplement sensor data with visual field observations. Cameras are used primarily for documentation, not for automated decision-making. Only still images are part of AOFS; full video surveillance is outside the standard and can be implemented separately. Images are intended to be reviewed by HQ or Farm staff.

Use Cases:

• Crop growth monitoring
• Pest or disease detection (optional, non-critical for irrigation)
• Soil surface moisture and coverage assessment

Guidance on Operational Schedule (example only):

• Cameras may capture images at key times, e.g.:
  • Daily at a consistent time (e.g., noon)
  • Before and after irrigation events
• AOFS-compliant implementations must allow configurable capture schedules; exact timing is left to farm operators.

Requirements:

• Cameras must be oriented for optimal coverage of zones
• Images must be timestamped and logged
• Data should integrate with Field Controller for storage and review
• No mandatory AI analysis; optional AI-based image analysis interfaces may be implemented
• All AI processing must not interfere with manual review or core logging functions

Data Logging & Access:

• All images must be stored locally on the Field Controller and synced to Farm/HQ controllers
• Metadata must include timestamp, irrigation event reference (if applicable), and camera ID

• All sensor readings must be logged locally on the Field Controller
• Logs include timestamp, sensor ID, measured value, and status/quality flags
• Data must be synced with Farm Controller for aggregation and with HQ Controller for analytics
• Field workers may document crop growth, harvest outcomes, and environmental observations via Field Survey Interfaces, complementing automated measurements

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• All sensors must be regularly calibrated according to manufacturer specifications
• Field inspections are required to prevent sensor drift, damage, or misplacement
• AOFS-compliant deployments must maintain logs of calibration and maintenance events

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• All AOFS deployments must implement at minimum:
  • 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

• All data must be timestamped, logged locally, and synchronized according to federation rules

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• Field Controller Layer
• Farm Controller Layer (Local / Federated)
• Hydraulic & Water Systems
• Electrical & Control Interfaces
• Optical Monitoring (Cameras)