We combine satellite imagery, patented lab materials, and nuclear magnetic resonance (NMR) to achieve precise remote mapping and reservoir characterization — reaching up to 15,000 feet deep.
Maximum depth reach
Projects completed
Cost reduction vs. seismic
Countries served
Manifesto
For decades, subsurface exploration has been defined by uncertainty, extensive intervention, and decisions based on partial approximations. Inside Earth was born from a clear conviction: subsurface characterization can and must be more precise, more efficient, and more responsible.
More information before drilling reduces risk. That's why we champion informed decisions from the earliest stages.
That optimizing geological exploration is a responsibility. Early interventions must be more precise and efficient.
To characterize the subsurface remotely, ahead of time, and responsibly. Less uncertainty at critical moments. Lower environmental impact.
Scientific development and advanced modeling for a more precise understanding of the subsurface — we don't replace traditional methods, we amplify them.
Technology doesn't replace geology. It amplifies it.
Inside Earth
What We Do
Hydrocarbons, mineral deposits, water and geothermal reservoirs — we reach depths up to 15,000 feet, even under water.
Discovery with unprecedented speed and accuracy before seismic operations begin.
Overcome limitations of traditional seismic methods with complementary data.
Enhance current operations with additional subsurface intelligence.
Industries
Precise subsurface characterization tailored to each industry's specific needs.
Technology
Determine where to drill, extract, or extend reservoir galleries — avoiding spills and accidents while reducing carbon footprint.
High-resolution satellite data with proprietary algorithms for precise surface mapping.
Proprietary materials developed and patented for unmatched subsurface detection accuracy.
NMR technology adapted for geological exploration with molecular-level subsurface analysis.
The best technology to complement and enhance traditional seismic studies.
Benefits
No environmental impact study required. Drastically reduces the exploratory cycle and associated costs.
No complex governmental permitting. Saves months of administrative time.
Industrial exploitation can begin almost immediately, generating revenue in record time.
Zero risk of accidents. No occupational hazard exposure for field personnel.
Shorter exploration cycles, fewer wells, greater precision in development opportunities.
Access reliable information before block round bids. Decisions ahead of the market.
Success Cases
A track record proven on real projects across mining, energy, water and geothermal — spanning six continents.
Hydrocarbons
Minerals
Water
Geothermal
Case 02 · Peru 2022
Four license blocks, 83 surface stations, 15 copper anomalies and the tectonic fault network — in a single georeferenced 3D model.
Explore 3D model →Water resources
Deep aquifer characterization for sustainable management. Resource location, volume and quality before any drilling.
View full case →Oil & Gas
Cases across conventional, unconventional (shale) and offshore fields. Lower drilling risk and validation of seismic interpretations.
View cases →Projects in more than 30 countries, six continents.
We map and characterise subsurface resources — hydrocarbons, minerals, water and geothermal — remotely and before any drilling, by combining satellite imaging, patented lab materials and Nuclear Magnetic Resonance (NMR).
No. The process is fully remote — no field crews, no ground disturbance and no complex permits — which keeps it fully aligned with ESG and HSE standards.
No — it makes them smarter. Inside Earth is the intelligent first step that prioritises where to survey and drill, reducing unnecessary seismic lines and dry holes.
Up to roughly 4,500 m (15,000 ft) deep, and from tens of km² up to 10,000 km² per project.
We read the molecular signature of each element with NMR rather than inferring it from structural geometry. That lets us discriminate hydrocarbons from water and CO₂ — and detect gas caps before drilling.
Anomaly contour maps, depth and thickness profiles, schematic cross-sections, fluid and content discrimination, pressure and resource estimates, and recommended drilling points.
Weeks to a few months instead of years — a remote workflow that dramatically compresses the exploration cycle.
Yes — by results. Our backing is real client projects: the full offshore characterisation in Sierra Leone (oil & gas, with a Competent Person's Report by Ryder Scott) and the El Cóndor study in Colombia, among 100+ projects delivered worldwide since 2018.
Still have questions? Schedule a meeting and we'll walk you through your asset.
Get In Touch
Tell us about your project. We'll show you how Inside Earth can reduce the risk of your next exploration campaign.
Universitat Politècnica de Catalunya
Parc TecnoCampus Mataró
Av. d'Ernest Lluch 32 · 08302 Mataró
Barcelona, Spain