Get a more complete understanding of seismic amplitudes by including the impact of geometry and layering. Make comparisons across multiple geological and geophysical models. Understand the impact of geometry on seismic response Includes: multi-2D modelling and attribute sections, lithology and fluid substitution workflows, ray synthetics including Q and spherical divergence corrections. This add-on is a multi-scenario, multi-2D synthetic seismic modelling package for rapid generation of hundreds of geologically plausible models. Reduce development time and efforts while improving your product’s performance and safety. Our CFD simulation products have been validated and are highly regarded for their superior computing power and accurate results. Attributes can be extracted quickly and easily from all models allowing the investigation of the impact of both changes in elastic properties and geometry on the seismic response. Ansys computational fluid dynamics (CFD) products are for engineers who need to make better, faster decisions.
Attrimod allows users to build multi-geometry 2D models on a single canvas and apply rock physics perturbations simultaneously across all scenarios. There are two fundamental controls on seismic amplitudes the contrast in elastic properties across interfaces, and the geometry of the interfaces themselves. The identification of both false positives and negatives when interpreting seismic responses, a reduction in interpretation cycle time, screening and validation of high CoS prospects, improved communication between geology and geophysics. Results: Reduced risk in interpreting seismic amplitudes and an understanding of interpretation uncertainty. Solution: A robust framework for linking geological processes and properties to seismic response, that allows an understanding of the key geological factors driving seismic responses in each basin, coupled with a method of capturing and understanding geological uncertainty and its impact on risk. Fluid Warp uses a physics simulation (magic fluids sim), powered by computational fluid dynamics.
field is then obtained from numerical simulations of incompressible fluid flow. Fluid Warp: Fluid simulation to liquify your photo. This results in great potential for mistakes to be made and opportunities to be missed due to a lack of understanding about what is driving the seismic responses. Abstract: A physics-based medical image segmentation method is developed. CASE STUDY Define interpretation strategy in a variety of geological provinces and playsĬhallenge: Interpreting seismic responses is a difficult task, as amplitudes vary enormously depending on depositional environment, burial history and current day environmental conditions.