A Somerset engineering shop. We design hardware, write firmware and build LoRa-mesh IoT and applied AI for clients in agriculture, defence and industry.
An open IoT platform for soil and crop monitoring. UK and US field trials in progress. Launch late 2026.
Headline figures are best-case observations from internal pilot deployments in the UK and USA. Real-world results vary by crop, soil and existing irrigation.
Three sectors, one team. Same engineers, same hardware, same approach. Applied to agriculture, defence and industry where existing kit can't reach.
Farms already have the irrigation hardware. What they don't have is the data, or a useful place to see it. We build both: low-cost sensor nodes and the dashboard on top.
Sites where you can't run wires. We make the electronics and radios that work there anyway, and the firmware to keep them up.
Production lines, presses, packaging, logistics. Equipment that runs but rarely measures itself. We add the sensors, connect them up over LoRa or wired networks, and feed the readings into condition monitoring, predictive maintenance and OEE dashboards.
Same data tools, every sector. Soil moisture for farms. Perimeter sensors for defence. Production lines for factories.
AI that runs on the device itself. Yield prediction in agriculture. Threat detection at the perimeter. Predictive maintenance on the line.
Statistical and ML models on the data you already collect. Less time hunting for it, more time using it.
Dashboards, reports, and LLM-assisted automations. Built to fit alongside the systems you already run.
Long-range mesh networking. 20km+ demonstrated range. Reference node hardware under $10 BOM.
Pi Pico 2W + RFM9x LoRa node. MIT release in progress. Used as the reference platform for AgriHub360.
Map recognition, navigation and on-board AI for drones. Target applications: inspection, search-and-rescue, defence.