Hyperspectral Data Processing
Tailored Outputs, Seamless Integration
Our cloud workflow applies rigorous QA/QC and then condenses complex spectral information into clear outputs tailored to your deposit style.
Powered by proprietary hyperspectral processing software, our workflow transforms complex spectral data into actionable insights for mineral exploration and mining.
Cloud-based
Hyperspectral data processing is always included
Innovative
World-leading data processing software developed in-house
Rapid
Hyperspectral analysis through highly-automated workflows
Customized
Outputs for guaranteed customer satisfaction
Why Data Processing Matters
Turning Raw Hyperspectral Reflectance Data into Decision-Grade Outputs
For hyperspectral reflectance data, it’s the data processing that ultimately determines output quality and value. Our cloud-based hyperspectral data processing ensures consistency across sites, deposits, and teams—so results are accurate, comparable, and ready for integration.
Easy Workflow Integration
Customized Outputs and Customer Dashboard Access
Each project includes an onboarding phase where outputs are customized to solve customers’ needs. Standard deliverables typically include spectral logs that provide continuous compositional information, and requested predictive logs.
All outputs and customer data are securely stored on our customer dashboard, which provides direct access to results, project history, and downloadable datasets at any time.
All outputs and customer data are securely stored in our customer dashboard, giving clients direct access to results, project history, and downloadable datasets at any time.
Materials we analyze
- Drill core
- RC Chips
- Blast Hole Sample
- Rejects
- Pulps
- And more...
Introducing Lithotype™
A Unique Approach to Hyperspectral Data Analysis
Our unique approach to hyperspectral data analysis identifies spectrally distinct compositional groups, which we call Lithotype™. Instead of relying on single-vector outputs (e.g., band ratios) or mineral matching algorithms, the Lithotype™ Method condenses complex data into a reliable output.
This multidimensional method avoids the low accuracy of mineral matching estimates and ensures reproducible results. As a result, our systems deliver compositional unit identification with the highest sensitivity and accuracy possible—providing confidence in every decision.
Tailored Solutions for Every Project
Specialized Outputs
Each deposit is unique. That’s why our hyperspectral processing approach is designed to deliver outputs tailored to project requirements. Beyond standard spectral logs, we provide specialized deliverables to meet evolving needs.
Specialized outputs include:
- Ore dilution logs
- Predictive geochemical logs
- Deleterious minerals logs
- Total Bitumen Content (TBC)
- Predictive petrophysical & geometallurgical logs (hardness, grindability, density, floatability)
Our cloud-based hyperspectral data processing provides flexibility to adapt outputs as project demands evolve.
Proven and Reliable
Trusted by Teams Across Exploration and Mining
Backed by our experienced team and proprietary software, our data processing workflows are trusted across deposits worldwide. By combining automation, thorough QA/QC, and the Lithotype™ Method, we deliver valuable insights that integrate seamlessly with your modeling and decision-making tools.
Cloud Based Hyperspectral Data Processing FAQ
What is cloud-based hyperspectral data processing?
It’s the use of secure cloud infrastructure to transform raw hyperspectral data into decision-ready outputs, ensuring consistency, reproducibility, and accessibility from anywhere.
Can hyperspectral data be processed on-site?
Yes. While cloud-based workflows are standard, we can support on-site data processing for certain projects.
How does Lithotype™ improve accuracy?
The Lithotype™ Method condenses complex spectral data into reliable outputs, avoiding the low accuracy of mineral matching estimates.
Can outputs integrate into my existing software?
Absolutely. Outputs are compatible with standard logging, visualization, and modeling software.
