TEAM/INTERDISCIPLINARY BY DESIGN
Software engineers
who learned fence building
from the ground up.
We started without knowing the first thing about fences or agriculture. But we recognised something early: high-tensile fencing is far more complex than it looks — and the industry desperately needs modern technology to simplify processes that have been manual for generations.
The journey
Months and years spent understanding what others skipped.
Building high-tensile fences is anything but simple. The calculations involved — tension loads, post spacing, bracing angles, soil mechanics — are genuinely difficult. So difficult, in fact, that no one had really engaged deeply with them before.
To write software that actually works, we had to go deep. We spent months in the field, talking to the people who build fences every day. The ones who carry decades of knowledge in their heads — knowledge that was never written down anywhere.
We learned that fence building is part physics, part craft, part local knowledge. Every terrain is different. Every soil type changes the equation. What works in one region fails in another. This is not the kind of problem you solve from behind a desk.
How we work
Engineers, domain experts, and fence builders in one room.
Our team brings together software engineers, agronomists, and experienced fence contractors. We do not believe in hand-offs between “the business people” and “the tech people.” Everyone codes. Everyone understands fences. Everyone talks to customers.
Software Engineering
Full-stack development with focus on geometric algorithms and GIS integration
Agricultural Science
Understanding livestock behaviour, pasture management, and rural workflows
Field Experience
Direct collaboration with fence contractors who build high-tensile systems daily
Mechanical Engineering
Static load analysis, material stress calculations, and structural logic
Why this matters
10+
Fence Systems
From high-tensile electric to woven wire and game fencing — each with unique engineering constraints.
40+
Material Line Items
Every project generates a precise BOM down to the last crimp sleeve and brace pin.
∞
Terrain Variables
Slope, soil type, wind load, livestock pressure — every factor changes the calculation.
The complexity
High-tensile fencing is a genuine engineering challenge.
At first glance, a fence seems simple: posts, wire, insulators. But high-tensile systems operate under extreme mechanical stress. A single wire tensioned to 113 kg generates enormous cumulative force on corner posts and end assemblies.
Get the bracing wrong, and the entire system fails. Miscalculate the post embedment depth, and frost heave will push your corner posts out of the ground. Ignore slope correction, and you will run out of wire halfway up a hillside.
These are not hypothetical problems. We have seen them in the field. That is why our engine refuses to let users configure systems that violate fundamental engineering constraints. We learned those rules from the people who spend their lives fixing fences that were built wrong.
Static Load Analysis
Calculating cumulative wire tension on posts and bracing requirements based on gauge, strand count, and tension targets.
Slope-Corrected Geometry
Real path length versus horizontal map length. Steep gradients require stepped panels, racked sections, or specialised hardware.
Soil Mechanics
Embedment depth and concrete volume vary dramatically by soil class — rock, clay, sand, loam — and local frost line depth.
Direction Change Logic
Every corner or bend requires bracing. The angle of direction change determines whether H-braces, N-braces, or deadman anchors are needed.
Our approach
We do not build features. We solve field problems.
Every line of code in FenceLogic traces back to a real problem encountered in the field. We do not guess what fence builders need — we watch them work, listen to their frustrations, and build tools that remove the friction from their daily jobs.
This means our software looks different. It is not generic. It understands that a fence is not just a line on a map, but a physical structure that must withstand years of weather, animal pressure, and mechanical stress. It encodes the knowledge that veteran fence builders carry in their heads — so the next generation does not have to learn it all the hard way.
Work with us
Want to see what we have built?
Schedule a technical demo and meet the team behind the engine. We will walk you through the calculations, the constraints, and the field-tested logic that makes FenceLogic different.