AIM
Targets the Right Velocity Model
The
key to accurate depth imaging is the velocity model.
The
best velocity model requires access to angle- domain common image
gathers (ACIG) at all locations, high fidelity fast algorithms,
flexible model-building, and robust model updating techniques, such
as 3-D tomographic updating.
That
is our AIM! Make it your AIM!
3DGeo
builds its detailed depth-interval velocity models with updating from
finely- spaced wave equation-based angle gather residual velocity
estimates. Our MVA environment provides rapid analysis of the large
volumes of ACIG/semblance sets, with robust automated picking tools,
and interactive graphical QC aids to efficiently high-grade
the residual velocity volume.
For
speed of iteration and model convergence, 3DGeo's AIM pre-stack depth
solution includes the fastest wave equation algorithm in the industry
operating at speeds orders of magnitude faster than competing
algorithms. In combination with 3DGeo's know-how, this allows rapid
iteration and fast convergence on the right model.
Let
us show you how 3DGeo can provide the best possible velocity model
for your project.
AIM's
Powerful PSDM Portfolio Covers the Spectrum of Subsurface Solutions
Whatever
the geological complexity or seismic acquisition geometry, AIM's PSDM
portfolio has the answer. AIM's PSDM Portfolio includes:
|
Kirchhoff
(K3D)
|
Our
robust workhorse when very rapid lateral velocity changes and
multi-pathing are not an issue
|
|
COMAZ
|
Ultra-high
performance wave equation source-receiver domain common-azimuth
solution.
The
fastest algorithm in the industry!
|
|
FAST
|
Full
Azimuth STreamer version of COMAZ
|
|
SHOT
|
Wave
equation Shot Domain algorithm for
multi-azimuth
acquisition geometries
|
When
lateral velocity variation exists to any degree, depth imaging
becomes a requirement. Whatever the geology, whatever the
acquisition method, AIM meets the challenge
|
|
Moderate-High
Lateral
Velocity
Variation
|
Very
rapid
Lateral
Velocity
Variation
|
|
Onshore
Areal Acquisition
|
K3D
|
SHOT
|
|
Offshore
Areal (OBC, Node)
|
K3D
|
SHOT
|
|
Offshore
Streamer
|
K3D
|
COMAZ/FAST
|
| Source-receiver (COMAZ) | SHOT: |
|
|
| Data courtesy of Smaart JV |
And
That's Just the Beginning
3DGeo
Provides Leading-edge Collaboration Tools
3DGeo
offers Internet Seismic Processing (INSP) for improved user
collaboration. With INSP, clients are closely connected through
remote viewing, and involved at all critical decision stages. From
their desktop, our clients can be directly involved in their most
challenging projects, as if they were viewing models in the 3DGeo
offices. With INSP we see your cursor and you see our cursor, and
collaboratively we make key decisions. It's just another way that
3DGeo leads the pack in a total systems approach to successful wave
equation depth imaging!
AIM
Delivers the Comprehensive Depth Imaging Solution
Supported
by 3-D Tomography updating, a Subsurface Illumination toolkit, and
its Java-based Internet-driven Remote Collaboration Environment,
3DGeo provides the infrastructure and expertise to rapidly deliver
the best subsurface image for your prospect.
The
3DGeo comprehensive solution includes:
Time
Preprocessing Capability including SRME
Powerful
Pre-Stack Depth Migration Portfolio including Kirchhoff and a range
of Wave Equation options from Source-Receiver (Survey Sinking) to
Shot Domain
MVA
environment leveraging 3DGeo's ability to provide fine-grained ACIGs
across the target volume
Complete
Velocity Updating package including 3-D Tomography
Comprehensive
Subsurface Illumination and Ray-tracing toolkit
Java-based
Internet-driven Collaboration Environment
All
the data, all the aperture, all the gathers, all the tools, all the
time!
All
backed by 3DGeo's Technology team!!!
3DGeo's
AIM truly targets your most complex subsurface problems.
|
 |
Let
3DGeo deliver the best seismic imaging solution for your most
challenging projects.
