Difference between revisions of "Adopt a page"
(add Magnetotellurics) |
(added Valentina's name next to her selected topics) |
||
| Line 13: | Line 13: | ||
#[[boundary conditions]] | #[[boundary conditions]] | ||
#[[broadband]] | #[[broadband]] | ||
| − | #[[bulk modulus]] | + | #[[bulk modulus]] - [[User:ValentinaOS|Valentina]] |
#[[carbon sequestration]] | #[[carbon sequestration]] | ||
#[[chaos]] | #[[chaos]] | ||
| Line 36: | Line 36: | ||
#[[Geomagnetics]] | #[[Geomagnetics]] | ||
#[[geomatics]] | #[[geomatics]] | ||
| − | #[[Geophysicist]] | + | #[[Geophysicist]] - [[User:ValentinaOS|Valentina]] |
#[[geophysics]] | #[[geophysics]] | ||
#[[GPU computing]] | #[[GPU computing]] | ||
| − | #[[Gravity]] | + | #[[Gravity]] - [[User:ValentinaOS|Valentina]] |
#[[Ground-penetrating radar]] | #[[Ground-penetrating radar]] | ||
#[[High-performance computing]] | #[[High-performance computing]] | ||
| Line 74: | Line 74: | ||
#[[permanent reservoir monitoring]] | #[[permanent reservoir monitoring]] | ||
#[[poroelasticity]] | #[[poroelasticity]] | ||
| − | #[[Potential fields]] | + | #[[Potential fields]] - [[User:ValentinaOS|Valentina]] |
#[[pressure sensors]] | #[[pressure sensors]] | ||
#[[Processing]] | #[[Processing]] | ||
| Line 115: | Line 115: | ||
#[[vector processing]] | #[[vector processing]] | ||
#[[volcanics]] | #[[volcanics]] | ||
| − | #[[water table]] | + | #[[water table]] - [[User:ValentinaOS|Valentina]] |
#[[wave propagation]] | #[[wave propagation]] | ||
#[[wells]] | #[[wells]] | ||
#[[wide azimuth]] | #[[wide azimuth]] | ||
Revision as of 09:39, 10 May 2016
In alphabetical order (to be alphabetized once we settle on 100). Goal - 100 pages.
- 5D reconstruction
- acquisition
- acceleration sensors
- adaptive subtraction
- artificial intelligence
- autofocusing
- basement
- bed thickness
- blind deconvolution
- borehole geophysics
- boundary conditions
- broadband
- bulk modulus - Valentina
- carbon sequestration
- chaos
- chronostratigraphy
- clastic
- compressed sensing
- compressional
- compressional wave
- data reconstruction
- deblending
- depositional system
- depth conversion
- diagenesis
- earthquake seismology
- extensional
- facies
- fiber-optic sensors
- fluvial-deltaic
- fracture stimulation
- Geoelectrics
- geographic information systems
- Geomagnetics
- geomatics
- Geophysicist - Valentina
- geophysics
- GPU computing
- Gravity - Valentina
- Ground-penetrating radar
- High-performance computing
- image fidelity
- incompressibility
- induced seismicity
- infrasound
- integration
- interferometry
- internal multiples
- K-L transform
- life-of-field seismic
- log analysis
- machine learning
- Magnetotellurics
- Marine geophysics
- mass transport complex
- mathematical transform
- maximum entropy
- maximum livelihood
- measurement while drilling
- mining geophysics
- minimum entropy
- minimum likelihood
- multilinear algebra
- Near-surface geophysics
- Near-surface seismics
- numerical methods
- ocean-bottom node
- parallel computing
- Parsing
- particle-velocity sensors
- passive seismic methods
- permanent reservoir monitoring
- poroelasticity
- Potential fields - Valentina
- pressure sensors
- Processing
- reduced-rank filtering
- Reflection seismology
- Remote sensing
- resistivity log
- risk
- salt dome
- sandstone
- sediment compaction model
- sedimentology
- seismic amplitude interpretation
- seismic attributes
- seismic data acquisition
- Seismic interpretation
- seismic geomorphology
- seismic migration
- seismic velocity
- Seismic waves
- shale
- signal processing
- simultaneous sources
- spectral decomposition
- Surface-related multiple elmination
- Surface seismic
- standards
- steep dip
- stratal slice
- strike-slip
- surface consistent
- surface nuclear magnetic resonance
- tensor algebra
- tensor completion
- Time-lapse analysis
- time slice
- tube wave
- turbidite
- turning ray
- vector processing
- volcanics
- water table - Valentina
- wave propagation
- wells
- wide azimuth
