Qeye
Houston, Texas, United States
Qeye
!
Your partner in geophysical technology and quantitative interpretation (QI)
About Qeye
Qeye - Your partner in geophysical technology and quantitative interpretation (QI):
Welcome to Qeye, a leading geophysical technology company specializing in Quantitative Interpretation (QI). At Qeye, we offer project-based consultancy services powered by our cutting-edge, innovative QI software, designed to enhance your exploration and production endeavors.
Our customised QI workflows:
Our tailored QI workflows are engineered to seamlessly blend measurements and interpretations across various disciplines and scales. We bring together geological insights and geophysical data, enabling our clients to go beyond the elastic domain, gaining a deeper understanding of their reservoirs.
Global presence, local expertise:
With our headquarters situated in Copenhagen and offices in Calgary, Houston, Jakarta, Kuala Lumpur and Perth, Qeye operates on a global scale. Our extensive experience in QI technology development and project execution ensures a smooth journey from conceptualization to solution delivery.
Unlocking our Your exploration and production potential:
We invite you to reach out to us and explore ways in which Qeye can partner with your company to overcome exploration and production challenges. Let us be your guide as you navigate the dynamic world of geophysical technology and QI interpretation.
Description of Services
- Direct probabilistic inversion
Handle uncertainty and non-uniqueness in a mathematically robust manner. Estimate subsurface properties, surfaces and facies for thin beds and small elastic contrasts.
- Time lapse inversion
Fast & cost effective time lapse interpretation of reservoirs. Simultaneous and symmetric AVO inversion of multiple vintages directly for changes in elastic parameters. Obtain reservoir answers in a production management timeframe.
- Seismic AVO inversion
Seismic simultaneous AVO inversion of all input anglestacks for any combination of elastic parameters (for example impedances, Lamé parameters, compressibility/compliance, etc.)
- AVAZ inversion
Better understand the stress or natural fracturing intensity and azimuth in the reservoir. Invert azimuthal changes in amplitude to yield fast and slow shear wave velocity and the fast shear orientation.
- Rock physics inversion
Generate calibrated volumes of changes in rock and fluid properties by using local data driven rock physics templates to invert elastic domain volumes.
- Simulation to seismic
Apply to reservoir model the entire filtering processes undergone by the seismic through the earth, processing and inversion.
- Geotechnical inversion
Pre-stack seismic inversion of UHR seismic for bulk modulus, shear modulus and density and derive Synthetic CPTs and geotechnical parameters such as cone resistance, sleeve friction and soil type.
- Seismic data conditioning
Improve quality of input seismic data by noise suppression or other techniques.
- Rock physics analysis
Bridging the gap between remotely and directly acquired data.
- Seismic to well ties
Time-depth and wavelet estimation to calibrate dataset from different domains.
- Low frequency modelling
Low-frequency modelling using well logs, seismic horizons and seismic velocities.
- Seismic AVO inversion
Simultaneous, symmetric inversion of 4D changes in elastic and/or petrophysical parameters.
- Lithology and fluid prediction
Prediction of subsurface lithology and fluid content by either Bayesian classification or direct inversion.
