Signal processing, muting, gather editing, amplitude correction, filtering, deconvolution.
Processing in Prime is highly interactive. You can compare your previous and current results in real time in the same scale and gain. All changes in one comparable subwindow are immediately reflected in another.
All significant and interesting processing results can be saved into the database as versions and then you can quickly use it at any processing stage. Processing workflows are constructed and edited in the both graphic and text modes. Workflow is constructed once for the set of profiles acan be then easily applied to the all profiles from the research area.
Muting (option to set the muting curve point-by-point in time-offset domain for the specified profiles or whole area).
Processing of amplitudes: amplitudes estimation in window, amplitude, phase and FK-spectrums computation, AGC, amplitudes correction by multiplication to the specified function, calculation and correction of surface-consisted amplitudes and spectrum variations, changing the gain level of one data portion to the gain level of another data portion, divergence correction, etc.
Processing of seismic traces: trace attributes computation (instantaneous amplitude, phase, frequency, weighted average frequency), multichannel automatic trace editing based on the property of abnormality, median editing of traces etc.
Wave fields attributes computation in time windows (weighted average frequency, energy of trace, ratio of energies, which were computed for the different horizons, signal to noise ratio, logarithm of amplitudes, cepstrum decomposition).
Processing of spectra: band pass filtering, notch filtering, multi-channel frequency-dependent correction of seismic data in spectral domain.
Vibroseis data processing - correlation of seismic trace and sweep signal.
Velocity filtering: FK filtering, adaptive kinematical filtering, adaptive mask-filter, filtering of the data, sorted by offset, stacks and migrated data, fan filtering, filtering of offset-domain gathers in FX and TX domain.
Polarization filtering - separation of multi component CSP gathers to the P-wave gathers and S-wave gathers. (2D and 3D modes).