We build production-grade web applications, REST APIs, and database-backed platforms for engineering and industrial workflows. Our software is designed for the specific domain — not adapted from generic templates — which means it fits how your team actually works.

From replacing legacy PHP systems with modern React applications to building real-time multi-user platforms with live dashboards, document generation, and integrated file management, we deliver software that your organisation can rely on long after handover.

We design, build, and deploy intelligent edge hardware for remote and demanding environments. From battery-powered ESP32 sensor nodes measuring soil moisture at a remote field site to Raspberry Pi CM5 agents running full protocol stacks with offline caching — we work across the spectrum of embedded systems.

Our embedded work is directly connected to our software and infrastructure capabilities, which means we design edge-to-cloud systems as cohesive products rather than stitching together separate components.

We develop the full software framework for intelligent automation systems — from camera integration and real-time classification pipelines through to actuator control logic and remote monitoring interfaces. Our work in this space includes deploying machine vision in harsh, solar-powered, off-grid environments.

Whether the application is feral animal management on a remote pastoral property or industrial process automation, we design systems that work reliably in the real world — not just in controlled test conditions.

We provide full server and network infrastructure services for small to medium businesses — from initial design and physical installation through to long-term managed support. Our work spans physical cabling and rack builds, Linux server setup, virtualisation with Proxmox, containerisation with LXC and Docker, network segmentation, firewall configuration, and VPN deployment.

We also provide ongoing managed infrastructure support for deployed IoT and monitoring systems, including multi-year remote management contracts covering device health, software updates, and incident response.

Our workshop provides end-to-end electronics capability — the same facility that designs and assembles custom IoT hardware also handles component-level repair and data recovery for clients. This means our diagnostic and repair work is informed by deep hardware knowledge, not just surface-level troubleshooting.

We repair most consumer, commercial, and industrial electronic devices. Where device repair is not viable, we offer chip-off data recovery with experience in NAND flash reconstruction — typically the last resort before data is considered unrecoverable. We serve both individual consumers and businesses.

We build location intelligence and time-series telemetry directly into platforms — not as an afterthought, but as a core part of how operators understand and interact with their data. From geocoded job discovery on an interactive map to multi-site environmental sensor dashboards with bulk export, we have delivered geospatial features across multiple production systems.

Our standalone LiDAR elevation microservice demonstrates the depth of our spatial work — a Docker-deployable service providing sub-100ms cached responses for 1m DEM elevation queries with tile caching and API fallback.

We bring significant hands-on experience in mechanical design and physical realisation — not as an afterthought to electronics, but as part of how enclosures, mechanisms, and field hardware actually ship. That includes parametric CAD, design for assembly, and parts that are intended to be made: printed, machined, or both. We use that depth internally too — see our Filament Tracker inventory platform on the Projects page.

Our additive work spans a wide range of materials and applications — from rapid prototypes and fit-check parts through to functional components where material choice (engineering thermoplastics, composites, flexible filaments, and resin-based prints where appropriate) is matched to load, environment, and lifecycle. We design with CNC in mind from the outset: reachable features, sensible tolerances, stock-aware geometry, and clear design intent so parts translate cleanly to the shop floor or your preferred machinist.