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Plant & Soil
Attribute Monitoring Station

- Situation This Solves

A third-generation farmer watches a section of her paddock struggling. The plants look stressed. Is it water? Nutrients? Soil pH? Disease? She won’t know for certain until she sends a sample to a lab — and by the time the results come back, it could be too late.

Globally, agriculture loses an estimated 20–40% of crop yield every year to preventable causes: wrong moisture levels, nutrient deficiencies, pH imbalances — things that are measurable, if only someone was measuring them. Most farmers aren’t. Not because they don’t want to, but because nobody has built a practical, affordable system to do it continuously.

This monitoring station does exactly that — sitting in the field, reading the soil and plant conditions in real time, so farmers can respond to what’s actually happening, not what happened last season.

The Problem

Farmers are making daily decisions with weeks-old data — or none at all

Soil testing is expensive, infrequent, and retrospective. By the time a lab result returns, the conditions it measured may have already caused damage. Plants signal stress visually long after the underlying problem began. Most farms have no real-time visibility into the soil and plant conditions that determine yield — decisions are made on experience and intuition, not live data.

The Solution

A field-deployed IoT station that reads soil and plant health continuously and delivers actionable data

The monitoring station uses IoT sensors deployed in the field to continuously measure soil moisture, nutrient levels, pH, temperature, and plant physiological attributes. Data is aggregated and surfaced in real time — giving farmers the ability to respond precisely to what their crops actually need, when they need it.

Who This Transforms — And How

Farmers & Growers

Instead of walking rows looking for visual stress signals, a farmer can check live readings from anywhere — seeing exactly which zones need water, which are nutrient-deficient, and where conditions are drifting outside optimal ranges.
  • Act on data, not on guesswork.

Agronomists & Farm Consultants

Agronomists advising multiple farms get continuous data rather than periodic visits. They can identify issues across dozens of properties simultaneously and make recommendations based on what’s actually happening in the ground.

  • Advise more farms, more effectively, with less travel.

Food Producers & Supply Chain Managers

Processors and retailers who need consistent quality and predictable volumes can use monitoring data to identify risk earlier in the season — and work with growers to prevent yield or quality failures before harvest.
  • Predictable quality from paddock to processing.

How It Works

1.

Sensors are deployed in the field and begin continuous monitoring

IoT sensors installed in representative soil locations measure moisture, nutrients, pH, temperature, and plant-related attributes at regular intervals — building a continuous, timestamped record of conditions across the growing area.

Like a weather station, but underground — and measuring what actually matters for the crop.

2.

Data is transmitted and aggregated in real time

Sensor readings are transmitted wirelessly to a central system where they are aggregated, visualised, and compared against optimal ranges for the specific crop and growth stage — flagging deviations that require attention.

Like a continuous blood test for your soil — not a snapshot, but a running record.

3.

Farmers and advisors receive specific, timely alerts and recommendations

When a reading moves outside optimal ranges — low moisture, dropping pH, nitrogen deficiency — the system alerts the farmer with the specific location, the specific reading, and the suggested intervention.

Like a mechanic who doesn’t wait for the engine to fail — they read the diagnostics and tell you what to fix now.

Without This

  • Soil conditions are measured infrequently through expensive lab tests
  • Farmers respond to visual crop stress — which appears long after the underlying problem began
  • Irrigation, fertilisation, and treatment decisions are based on schedule, not actual need
  • Yield losses from preventable soil issues are written off as normal variation

With This

  • Continuous real-time soil and plant data replaces infrequent lab sampling
  • Problems are detected at the earliest stage — before plant stress becomes visible
  • Inputs are applied precisely when and where needed — reducing waste and cost
  • Yield losses from preventable causes are identified, addressed, and reduced

What Makes This Different — The Protected IP

IoT

Agriculture

Sustainability

Most soil monitoring products are point-in-time: a probe inserted for a reading, a sample sent to a lab. This station is continuous and autonomous — a deployed monitoring presence that builds a live, longitudinal record of soil and plant conditions. The innovation patent covers that specific combination of continuous IoT monitoring with plant and soil attribute analysis, deployed as a permanent field station rather than a portable measurement device.