Verify whether the shape and volume actually changed.

Omniterra Pulse maps stockpile, embankment, landfill, and containment geometry change into volume and shape deltas so teams can see where material moved, where crest lines or slopes shifted, and which features deserve survey or reconciliation follow-up.

Signal chain

Interferometric or topographic surface + DEM differencing where geometry allows + feature boundaries -> volume deltas, geometry anomalies, capacity watchlists.

Business value

Check inventories faster, catch geometry drift earlier, and tighten capacity and reconciliation decisions.

01 / Problem

Inventory and geometry checks are too expensive to run everywhere, all the time.

Across stockpiles, embankments, landfill cells, and containment structures, the issue is not just whether material moved. It is where geometry changed enough to affect inventory, freeboard, slope condition, or capacity tracking, and which features need survey-grade follow-up.

Too many features

Not every pile, berm, or cell justifies a full survey cycle.

Large sites accumulate many geometry-change candidates while only a subset actually matter for reconciliation, capacity, or slope-control questions.

Shape drift

Small geometry shifts compound into inventory and capacity risk.

Crest drift, slope flattening, toe growth, and subtle volume loss or gain can build over time without a clean site-wide view of where change is accumulating.

QA handoff

Teams need a targeted QA surface, not another raw elevation product.

The output has to tell survey, operations, and engineering teams which features should be remeasured, reconciled, or escalated first.

02 / Solution

How Omniterra Pulse solves it.

Omniterra Pulse turns geometry change into volume-delta zones, shape checks, and follow-up priorities for inventory and capacity QA.

What it finds

Volume-delta zones and geometry anomalies

Map where stockpiles, berms, landfill cells, or containment features changed shape strongly enough to justify closer survey or engineering review.

What your team gets

Shape-change layers and feature comparisons

Return geometry-delta zones, feature context, interpretation notes, and GIS-ready layers for inventory, survey, and engineering workflows.

What decision it supports

Where to resurvey, reconcile, or adjust capacity assumptions

Support the next decision about which feature gets remeasured, reconciled, or moved into a tighter QA or capacity-review cycle.

Best fit

Best fit for this workflow.

Best when stockpiles, berms, cells, or containment features need recurring QA without treating every feature as a full survey job.

Best for

Stockpiles, landfill cells, berms, embankments, pads, and containment features

Best where material movement, freeboard, or capacity changes need a wider QA surface before committing full survey effort.

Typical triggers

Inventory reconciliation, freeboard review, capacity checks, and unexplained shape change

Most useful when teams already suspect geometry drift but need to narrow where survey-grade follow-up should start.

First pilot returns

Geometry-delta zones, feature comparisons, and GIS-ready QA layers

The first pilot returns a targeted QA view of where shape or volume changed enough to affect reconciliation, capacity, or engineering review.

Delivery

Delivered as geometry-delta zones, feature watchlists, and GIS-ready QA layers.

Start with geometry qa.
Request a pilot.

Send one site and the operating question around geometry qa. We will reply with fit, timing, and a first Omniterra Pulse pilot scope.

The first step stays scoped: one site, one decision, one readable packet that supports the next inspection, maintenance, or monitoring choice.

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