A Deep Dive into the Best Stockpile Measurement Tools

Managing stockpiles is a big deal in industries like mining, construction, and agriculture, where knowing exact volumes can make or break your bottom line. Whether you’re tracking gravel, coal, or grain, the right measurement tool saves you from guesswork and costly mistakes. I once heard about a site manager who relied on eyeballing his piles until a laser scanner revealed he was off by thousands of cubic yards. In this article, we’re reviewing the top stockpile measurement tools of 2026, breaking down what makes them stand out and how they fit into real-world operations.

1. FlyPix AI

FlyPix AI comes from a team focused on making geospatial analysis easier through AI, especially for handling satellite, aerial, and drone images. We build a platform where users can train custom models to spot and outline objects in those images, including stockpile measurement tools, tying everything to exact locations on maps. Our goal is to let people from different fields adapt the tools to their own setups without needing deep tech skills, covering stuff like construction sites or farm fields. It’s all about turning raw imagery into useful insights that fit specific workflows.

Our company emphasizes flexibility, so industries can tweak AI for their unique challenges, whether it’s monitoring changes over time or inspecting large areas. We handle everything from basic free access to beefier plans for teams that need more storage and processing power. Our support ramps up with higher tiers, including chats and expert help, and we integrate things like multispectral data for deeper analysis.

Key Highlights:

• AI for detecting and outlining objects in geospatial images
• Custom model training without coding
• Works with satellite, drone, and aerial data
• Dashboard for analytics and predictions
• Options for collaboration like exporting layers

Who it’s best for:

• Teams in agriculture or construction needing image-based monitoring
• Users wanting to customize AI for specific object detection
• Smaller operations starting with free tools
• Larger groups requiring API and team features

Contacts:

• Website: flypix.ai
• Email: [email protected]
• LinkedIn: www.linkedin.com/company/flypix-ai
• Address: Robert-Bosch-Str. 7, 64293 Darmstadt, Germany
• Phone: +49 6151 2776497

2. StockPiler

Klau Geomatics, the folks behind StockPiler, draw from their background in aerial mapping and PPK tech to create systems that automate bulk material checks. They set up fixed LiDAR scanners at sites like mines or ports, using edge computing to crunch data right there and spit out volume readings fast. The aim is to ditch old manual surveys or drone waits, giving real-time access via a dashboard that works anywhere, helping with logistics like scheduling trucks based on actual stock levels.

Their hardware runs in tough enclosures with Linux, controlled over networks, and the software lets you customize for things beyond volumes, like flow rates or change tracking. Developed by a team that’s pushed boundaries in UAV accuracy, they focus on integrating into business systems for ongoing inventory views, especially in regulated spots like Australia where precise data avoids penalties.

Key Highlights:

• Cluster of fixed LiDAR for 3D point clouds
• Edge computing for quick on-site calculations
• Automated scans on demand or schedule
• Dashboard access from any browser
• Adaptable for mass conversion and zoning

Who it’s best for:

• Mining or port operations with constant stock changes
• Sites wanting no-survey-crew automation
• Industries under strict regs needing audit-ready data
• Facilities integrating with existing logistics software

Contacts:

• Website: stockpiler.com.au
• E-mail: [email protected]
• Address: 50 Berry St, Nowra NSW 2541
• Phone: +61 400 154 109 

3. Laser Tech TruPulse and MapSmart

Laser Tech has been at it since the mid-80s, pioneering LIDAR for speed and distance tools, now extending to pro measurement with reflectorless lasers. Their TruPulse series pairs with MapSmart software on mobile devices to map and measure stockpiles safely from afar, no prisms or climbing needed. The company targets field pros who need quick data for volumes in places like aggregates or bins, focusing on accuracy without hassle.

They build for versatility across industries, from traffic to mining, with apps that handle distance, height, and positioning. MapSmart integrates their rangefinders into a total station-like setup, letting one person collect and calculate on the spot. It’s about solving real fieldwork pains, like hazardous spots, with tools that evolved from law enforcement gear.

Key Highlights:

• Handheld laser rangefinders for reflectorless shots
• MapSmart app for field mapping and volume calc
• Works indoors or on rough surfaces
• Integrates with accessories for full surveys
• One-time licensing for the software

Who it’s best for:

• Field crews avoiding pile climbs
• Mining or construction for quick inventories
• Teams with Android or iPad setups
• Pros needing portable, safe measurement

Contacts:

• Website: lasertech.com
• App Store: apps.apple.com/us/app/lasersoft-mapsmart/id1625997522
• Google Play: play.google.com/store/apps/details?id=com.lasertech.mapsmart
• Instagram: www.instagram.com/lasertechnologyinc
• LinkedIn: www.linkedin.com/company/laser-technology
• Twitter: x.com/lasertechinc_
• Facebook: www.facebook.com/LaserTechnologyInc
• Address: Laser Technology, Inc. 6912 South Quentin Street, Suite A
• Phone: +1 303-649-1000

4. Blickfeld QbVolume

Blickfeld develops 3D LiDAR sensors with built-in software for perception, aiming to make environmental scanning reliable for automation and monitoring. Their QbVolume setup uses sensors mounted around stockpiles to generate point clouds for volume tracking, handling open yards or indoor spots with real-time data. The company pushes for scalable installs, from single units to multi-sensor arrays, even in dusty conditions, to feed into dashboards or ERP systems.

They focus on end-to-end solutions that cut manual work, using on-device processing for fast results and APIs for workflows. With roots in intelligent detection, they adapt tech for security or traffic too, but for volumes, it’s about consistent surface scans that account for irregular shapes without constant human input.

Key Highlights:

• 3D LiDAR for full-surface point clouds
• On-device processing for real-time volumes
• Multi-sensor options for big areas
• Dashboard and API for data integration
• Tough build for harsh environments

Who it’s best for:

• Waste or recycling sites with bulk monitoring
• Mining ops tracking open piles
• Logistics needing continuous inventory
• Teams integrating with central systems

Contacts:

• Website: www.blickfeld.com
• LinkedIn: www.linkedin.com/company/blickfeld-gmbh
• Facebook: www.facebook.com/BlickfeldGmbH
• Address: Barthstrasse 14, 80339 Munich, Germany
• Phone: +49 89 230 69 35 00

5. StockAce

ITS Geo Solutions crafts augmented reality tools for GIS and mapping, with StockAce turning iPhones or iPads into scanners for volumes without extra gear. They enable walking around piles or pits to capture surfaces via AR, calculating on-device even indoors or underground where GPS fails. The goal is simple workflows for bunkers or free-standing stocks, using barcodes for ID and generating reports right away.

No cloud needed – everything processes locally, with exports for further use, and they support custom materials for mass estimates. From Germany, they target utilities to mining, emphasizing ease for repeated surveys without heavy setups.

Key Highlights:

• AR scanning on iOS devices with LiDAR option
• On-device volume and mass calculation
• Works offline, indoors, or underground
• PDF reports and point cloud exports
• Barcode support for stock ID

Who it’s best for:

• Small teams with mobile Apple devices
• Underground or hall-based operations
• Quick, no-hardware surveys of pits
• Users wanting instant, portable results

Contacts:

• Website: its-geo.eu
• E-mail: [email protected]
• App Store: apps.apple.com/us/app/stockace/id1445066626
• Twitter: x.com/itsgeosolutions
• Facebook: www.facebook.com/itsgeosolutions
• Address: ITS Geo Solutions GmbH, Hans-Knöll-Strasse 6, Jena 07745 Germany
• Phone: +49 3641 3279 080

6. SR Measure

The team at Stockpile Reports focuses on making inventory tracking straightforward with SR Measure, a mobile app that lets users measure stockpiles using just their phones. They aim to simplify the process for folks in industries like aggregates or construction, where quick volume checks are key to keeping tabs on materials. By leveraging phone-based tech, they eliminate the need for clunky equipment, letting users walk around a pile or bunker to get results in seconds, with data stored locally or in a cloud dashboard for bigger plans.

Their work centers on flexibility and speed, supporting both solo users and larger teams with tools to manage piles by type or site. They also offer extras like drone integration for enterprise setups, but the core is about giving people a no-fuss way to measure and report, whether it’s a one-off pile or a sprawling operation across multiple locations.

Key Highlights:

• Phone-based scanning for freestanding or bunker stockpiles
• Local processing with optional cloud dashboard
• Material and tonnage tracking for inventory
• Audit-ready reports with export options
• Enterprise plans include drone and camera support

Who it’s best for:

• Solo operators needing quick, one-off measurements
• Small businesses managing multiple piles
• Enterprises with large-scale, multi-site inventories
• Teams wanting mobile-first, simple workflows

Contacts:

• Website: srmeasure.com
• E-mail: [email protected]
• App Store: apps.apple.com/us/app/sr-measure/id1569961235
• Google Play: play.google.com/store/apps/details?id=io.everypoint.srmeasure
• Instagram: www.instagram.com/stockpilereports
• LinkedIn: www.linkedin.com/company/stockpile-reports
• Twitter: x.com/stockpilereport
• Facebook: www.facebook.com/StockpileReports
• Address: 8201 164th Ave NE, PMB 55 Redmond, WA 98052
• Phone: (425) 428-5266

7. DroneDeploy

DroneDeploy builds tools to turn drone-captured images into actionable data, with a focus on stockpile measurement through both AI and manual methods. Their team works to streamline how industries like construction or mining handle inventory by processing aerial maps into detailed models. Users can either draw pile boundaries themselves or let the AI detect them, making it easier to calculate volumes and organize materials for reports.

They prioritize integration and accessibility, offering a platform where teams can assign material types, track changes, and share data via PDF or CSV. Built with feedback from users, their system aims to cut down on manual work and improve safety by reducing the need for on-site measurements, all while keeping data clear for office and field teams alike.

Key Highlights:

• AI-driven stockpile detection for quick outlining
• Manual polygon drawing for precise volume calculations
• Material type assignment for inventory tracking
• Cut and fill analysis for site changes
• Exportable reports in PDF or CSV formats

Who it’s best for:

• Construction teams using drone surveys
• Managers needing detailed material reports
• Operations wanting automated pile detection
• Teams requiring shareable, audit-friendly data

Contacts:

• Website: dronedeploy.com
• Instagram: www.instagram.com/dronedeploy
• LinkedIn: www.linkedin.com/company/dronedeploy
• Twitter: x.com/DroneDeploy
• Facebook: www.facebook.com/Dronedeploy

8. Propeller

Propeller’s team develops a platform that combines drone mapping with other data sources like GNSS or total stations to create a unified view of worksites. They focus on helping industries like aggregates and construction measure stockpiles accurately by processing survey data into 3D maps. Their tools let users outline piles, calculate volumes, and even factor in material properties like density for mass and cost estimates.

Beyond measurements, they aim to connect field and office teams by centralizing site data, from design files to machine telematics. Their approach emphasizes keeping everything in one place, so crews can track progress, share updates, and plan next steps without juggling multiple systems.

Key Highlights:

• Combines drone, GNSS, and other survey data
• Stockpile volume calculations with material properties
• Surface comparison for tracking changes
• Centralized platform for site docs and collaboration
• Real-time machine tracking with add-ons

Who it’s best for:

• Construction or quarry teams using mixed survey methods
• Managers needing a single hub for site data
• Operators tracking machine efficiency
• Teams integrating with CAD or project software

Contacts:

• Website: www.propelleraero.com
• App Store: apps.apple.com/us/app/propeller-mobile-3d-mapping/id1644272004
• Google Play: play.google.com/store/apps/details?id=com.propelleraero.visualiser
• Instagram: www.instagram.com/propeller_aero
• LinkedIn: www.linkedin.com/company/propeller-aero
• Facebook: www.facebook.com/propelleraero

9. DJI Enterprise

DJI Enterprise looks at stockpile measurement as a workflow that needs to work reliably on active sites, not as a one-off calculation. Their setup combines enterprise drones with DJI Terra software, allowing stockpiles to be captured from above through planned mapping flights instead of ground-based checks. This approach reduces the need to access unstable piles directly and makes it easier to repeat measurements as site conditions change.

Once the data is processed in DJI Terra, stockpiles are measured directly on 2D maps or 3D models by outlining the pile and defining how the base should be interpreted. For open piles, an averaged base plane is commonly used, while piles pushed against walls or stored in bunkers can be measured from their lowest visible point. When surveys are repeated over time, RTK positioning helps keep datasets aligned so changes in volume can be compared without models shifting between flights.

Key Highlights:

• Drone-based stockpile measurement instead of manual ground surveys
• Repeatable mapping flights for ongoing site monitoring
• Volume calculation from terrain models
• Base plane options for different pile layouts
• Exportable outputs for use in external survey tools
  

Who it is best for:

• Construction and earthworks teams managing active sites
• Mining operations tracking material movement over time
• Agricultural sites with large outdoor stockpiles
• Teams already using drones for surveying or inspection

Contacts:

• Website: enterprise.dji.com
• E-mail: [email protected]
• Instagram: www.instagram.com/DJIglobal
• Twitter: x.com/djiglobal
• Facebook: www.facebook.com/DJI
• Address: DJI Sky City, No.55 Xianyuan Road, Nanshan District, Shenzhen, China
• Phone: +86 (0)755 26656677

10. Pix4D

Pix4D approaches stockpile measurement as something that should not require carefully tracing every pile by hand. Inside PIX4Dsurvey, the focus is on reducing manual outlining while still letting the user control how the pile is defined. Instead of drawing a full polygon from scratch, users place a starting point directly on the stockpile in the point cloud.

From that point, the software grows a preview of the stockpile by analyzing slope, color, and distance. This preview can be refined by adding more seed points or adjusting parameters when piles sit close together or materials differ. When accepted, the preview becomes a volume polygon used for calculation. Because the same inputs lead to the same output, the process stays predictable when similar stockpiles are measured across different sites or dates.

Key Highlights:

• Assisted stockpile detection based on point cloud analysis
• Seed-based workflow instead of full manual outlining
• Adjustable slope and distance parameters
• Consistent results from repeatable inputs
• Integrated volume calculation within survey projects
  

Who it is best for:

• Surveyors working with dense point clouds
• Construction teams measuring multiple stockpiles on the same site
• Users who want faster outlining without losing control
• Projects where repeatability matters more than automation

Contacts:

• Website: www.pix4d.com
• Instagram: www.instagram.com/pix4d_official
• LinkedIn: www.linkedin.com/company/pix4d
• Twitter: x.com/pix4d
• Facebook: www.facebook.com/Pix4D
• Address: Pix4D Inc. 6041 S. Syracuse Way, Suite 320 Greenwood, CO 80111
• Phone: +1 720 204 8069

11. Virtual Surveyor

Virtual Surveyor treats stockpiles as part of a broader terrain analysis workflow rather than isolated objects. Stockpiles are created after defining a boundary or surface, which serves as the outline for the calculation. The volume is then measured between the current terrain and a chosen reference level, making it clear what the pile is being compared against.

The reference level can be defined in several ways, including flat surfaces, minimum elevation planes, or comparisons between different survey dates. Materials can also be assigned to stockpiles, allowing additional properties like weight or value to be viewed alongside volume. All stockpile information is accessible directly in the workspace and can be compiled into structured reports or exported for further use.

Key Highlights:

• Stockpile calculation based on boundaries or surfaces
• Multiple reference level options for different scenarios
• Ability to assign materials to stockpiles
• Clear visibility of volume and related properties
• Built-in reporting and export options
  

Who it is best for:

• Surveyors working with repeated drone surveys
• Teams tracking stockpile changes over time
• Projects that require structured reports
• Users who need material-based stockpile analysis

Contacts:

• Website: virtual-surveyor.com
• Instagram: www.instagram.com/virtualsurveyor
• LinkedIn: www.linkedin.com/company/virtual-surveyor
• Address: Virtual Surveyor North America Inc. 4509 Creedmoor Rd. Suite 201, Raleigh, NC 27612, United States

12. Pixpro

Pixpro focuses on making photogrammetry usable without forcing users into rigid workflows. In their setup, stockpile measurement happens directly inside the 3D scene, where volumes can be measured as soon as the model is processed. There is no need to wait for separate analysis steps, and all measurements remain editable as layers.

The software supports precise volume measurement using polygon-based tools that can be revisited or adjusted at any time. Because Pixpro works with imagery from drones, cameras, or smartphones, it fits a wide range of capture setups. Stockpile measurements can be compared across surfaces or timelines, making it possible to review changes without rebuilding the project from scratch.

Key Highlights:

• Direct volume measurement inside 3D models
• Editable measurement layers that persist over time
• Works with imagery from multiple capture sources
• Supports surface comparison and timelines
• Flexible export for use in other tools
  

Who it is best for:

• Small to mid-size surveying teams
• Users who want fast measurements without complex setup
• Projects using mixed image sources
• Teams that need editable and reusable measurements
  

Contacts:

• Website: www.pix-pro.com
• E-mail: [email protected]
• LinkedIn: www.linkedin.com/company/pixpro-uab
• Twitter: x.com/_Pixpro
• Facebook: www.facebook.com/Pixprosoftware
• Address: Aušros al. 39, LT-76300 Šiauliai, Lithuania

13. Agisoft Metashape

Agisoft Metashape treats measurement as a natural extension of photogrammetry rather than a separate task. Once imagery has been processed into a dense cloud, model, or DEM, distances, areas, and volumes can be measured directly inside the same project. This makes stockpile measurement part of the same workflow used for mapping, terrain analysis, or site documentation, without exporting data to external tools.

For stockpiles, volumes are calculated by outlining the base of the pile and measuring it against a reference plane, usually derived from the lowest point of the polygon or a custom elevation. The accuracy of these measurements depends heavily on proper scaling and georeferencing, which is handled through ground control points or scale bars. Measurements can be reviewed visually in the project and then exported as tables, shapes, or reports for use in surveying, construction tracking, or material planning.

Key Highlights:

• Volume measurement directly from dense clouds or DEMs
• Polygon-based stockpile definition with reference planes
• Supports scaled and georeferenced projects
• Integrated distance, area, and volume tools
• Export of measurements for reporting and GIS use
  

Who it is best for:

• Surveyors and engineers working with detailed photogrammetry projects
• Mining and construction teams measuring terrain and material volumes
• Users who need measurements tightly linked to 3D models
• Projects where accuracy depends on GCP-based workflows

Contacts:

• Website: www.agisoftmetashape.com
• E-mail: [email protected]
• Instagram: www.instagram.com/drone_emotions
• LinkedIn: www.linkedin.com/company/drone-emotions-srl
• Twitter: x.com/Drone_emotions
• Facebook: www.facebook.com/dronemotions
• Address: Drone Emotions Ltd, Pedestrian Street Isarco 5, 20847 Albiate (MB) – ITALY
• Phone: 800 984 535

14. Maps Made Easy

Maps Made Ease approaches stockpile measurement from a fully web-based perspective. Instead of relying on desktop software, the platform processes aerial imagery online and allows volumes to be measured directly in a browser. This removes the need for local computing resources and makes it easier to share results with other people involved in the project.

Stockpile volumes are calculated from 3D model-based orthophotos generated during processing. Measurements are stored online, which allows progress to be tracked across multiple site visits. Optional georeferencing helps align maps with real-world coordinates, making the outputs usable in GIS tools or as overlays in external platforms. Because everything lives online, the same data can be accessed from different locations without moving files between systems.

Key Highlights:

• Web-based stockpile volume measurement
• No desktop software required
• Online storage of measurements over time
• Optional georeferencing for GIS integration
• Easy sharing through links or embeds
  

Who it is best for:

• Teams that prefer browser-based workflows
• Construction and agriculture projects with repeated site visits
• Users who need simple sharing without file transfers
• Small teams without dedicated processing hardware

Contacts:

• Website: www.mapsmadeeasy.com
• E-mail: [email protected]

15. Anvil Labs

Anvil Labs focuses on automating measurement tasks that are common in construction workflows, including stockpile volumes and earthwork calculations. This platform combines drone imagery with cloud-based processing, allowing measurements to be generated without manual calculations or local software setup. The emphasis is on making data available to project teams as soon as it is processed.

Stockpile volume calculations sit alongside cut-and-fill analysis, using the same captured site data. Results are accessible through the cloud, which allows teams to review measurements, collaborate, and compare outputs across different stages of a project. This setup is designed to reduce rework caused by inconsistent measurements and to keep site data accessible as conditions change.

Key Highlights:

• Cloud-based stockpile volume calculation
• Uses drone imagery for site measurements
• Integrated with earthwork and cut-and-fill workflows
• Remote access for distributed teams
• Centralized measurement data
  

Who it is best for:

• Construction teams managing earthworks
• Projects that rely on frequent site updates
• Teams working across multiple locations
• Users looking to reduce manual measurement steps

Contacts:

• Website: anvil.so
• E-mail: [email protected]
• LinkedIn: www.linkedin.com/company/anvil-hq
• Facebook: www.facebook.com/people/Anvil-Labs
• Phone: +(786) 767-7007

16. Leica Geosystems

Leica Geosystems approaches stockpile measurement as a structured surveying task built around point cloud data. Within Cyclone 3DR, stockpiles are measured by drawing contours directly on laser scan or point cloud datasets, then calculating volume against a selected reference surface. The workflow is designed to keep measurements organized within a dedicated project interface rather than scattered across individual files.

Different reference surface methods can be used depending on how the stockpile sits on the ground, including best-fit planes, horizontal planes, or custom elevations. The software also provides tools to reduce noise in the data and to preview results before finalizing calculations. Measurements remain visible and editable within the project, which helps when reviewing results or applying different computation methods to the same pile.

Key Highlights:

• Stockpile measurement directly from point clouds
• Multiple reference surface calculation methods
• Dedicated project-based measurement workflow
• Tools for noise and spike reduction
• Clear visualization of cut and fill volumes
  

Who it is best for:

• Surveyors working with laser scanning data
• Mining and industrial sites using point clouds
• Projects requiring detailed control over reference surfaces
• Teams that need structured, repeatable measurement workflows

Contacts:

• Website: leica-geosystems.com
• Instagram: www.instagram.com/leicageosystemsag
• LinkedIn: www.linkedin.com/company/164708
• Twitter: x.com/LeicaGeosystems
• Facebook: www.facebook.com/LeicaGeosystems
• Address: Leica Geosystems AG, Heinrich-Wild-Strasse, CH-9435 Heerbrugg, Switzerland
• Phone: +41 71 727 3131

Wrapping Up: Choosing the Right Stockpile Tool

Stockpile measurement has come a long way from the days of pacing around with a tape measure or waiting weeks for survey results. Some tools try to automate everything, which sounds great on paper but can backfire on messy sites. The tools we’ve looked at – from phone apps to drone-powered platforms and fixed LiDAR setups – each tackle the challenge of tracking volumes in their own way. Some lean on AI to make sense of aerial images, others use lasers for pinpoint scans, and a few turn your smartphone into a survey tool. What they all share is a focus on cutting down time, boosting accuracy, and keeping workers safer by reducing the need to climb piles or dodge hazards. 

Picking the right one depends on your setup. A small crew might vibe with a mobile app for quick checks, while a sprawling mine could need a system with real-time dashboards and ERP tie-ins. I’ve seen folks get overwhelmed by too many options, but it’s worth thinking about your site’s needs – scale, environment, and how often you measure. Test a few, maybe start with a free trial, and see what fits your workflow. The goal isn’t just numbers; it’s about getting data you can trust to make smart calls without breaking a sweat.