Red Ant Agri · AgriTech / Precision agriculture

SmartSpreader

What started as a bounded electronics brief - use GPS to control a fertiliser spreader's dispensing rate - grew, over nine years and five major generations, into a complete precision-agriculture platform. The relationship is the longest on our record, and it is still active.

SmartSpreader - AgriTech / Precision agriculture
Client
Red Ant Agri
Relationship
Since ~2016, active
Generations
5 major, 10+ production runs
Reach
Multiple countries
Latest run
July 2025
  • Hardware
  • Firmware
  • Software
  • IoT
  • Cloud

The challenge

The client had a tractor-towed mechanical spreader whose dispensing rate drifted with ground conditions and tyre pressure, making precise application impossible. The first brief looked simple: derive ground speed from GPS and motorise the dispensing.

The real problem was much broader - tree detection for orchard spreading, recording and reporting deposition data, a field interface that survived abuse, and eventually ingesting satellite and drone agronomist data to drive variable-rate maps across a whole orchard.

Every major decision - phone over embedded UI, ESP32 over a multi-MCU stack, a configurable node - was driven by the client's business, not our technical preference. The product is in the field and we are still the team behind it.

What we did

  1. 01

    First prototype, and a partner who didn't deliver

    We built the first electronic version - GPS speed reference, motor-driven paddles, ultrasonic tree detection. When the third-party web partner never delivered the dashboard, we built a demo one ourselves to keep the project moving. That became a permanent BMEC habit: prototype the surrounding system early.

  2. 02

    The architecture pivot

    We replaced a Raspberry Pi plus four microcontrollers with a single ESP32 and a phone. The phone handles GPS, connectivity, compute and UI - and eliminating the SIM card made cross-border deployment a non-issue.

  3. 03

    The SmartNode platform

    We developed a configurable ESP32 board with 14 configurable I/O channels, usable across spreaders, sprayers and other products without a new board design. It is now reused across multiple clients.

  4. 04

    A precision-agriculture platform

    Web app for agronomists to upload prescription maps, a mobile app that spreads the right rate in each orchard zone automatically, a live telemetry dashboard, remote diagnostics, and full offline operation in the field.

In practice

How we build.

Modelled, simulated and tested before production - then made and assembled with the same rigour.

BMEC laser-etching a stainless part - representative workshop footage.

More work

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