The method of claim 7, wherein checking the acoustic based stress values and the image based stress values for consistency is based at least in part on data collected during micro-hydraulic fracturing testing for at least one wellbore associated with the subsurface formation.ĩ. The method of claim 1, wherein integrating the acoustic based stress values and the image based stress values to generate an integrated stress profile for the subsurface volume comprises checking the acoustic based stress values and the image based stress values for consistency.Ĩ. The method of claim 1, wherein the subsurface volume is associated with an oil and gas production system comprising at least one wellbore, and the acoustic data is collected from at least one surface collection device and at least one wellbore collection device.ħ. The method of claim 1, wherein analyzing the image data to determine image based stress values for the subsurface volume comprises normalizing the image data.Ħ. The method of claim 1, wherein the image data comprises image data associated with a wellbore corresponding to one or more of resistivity, induction, and acoustic based images.ĥ. The method of claim 1, wherein the acoustic data comprises waveform acoustics logs corresponding to one or more of dipole shear, compressional, and Stoneley waveforms.Ĥ. The method of claim 1, wherein analyzing the acoustic data to determine acoustic based stress values for the subsurface volume comprises analyzing the acoustic data using cross-dipole anisotropy to determine one or more of dipole shear wave velocities radial profiling, Stoneley shear wave velocity shear wave radial profiling, and compressional wave velocity.ģ.
A method for modeling subsurface formations, the method comprising: receiving acoustic data and image data for a subsurface formation analyzing, with at least one processor, the acoustic data to determine acoustic based stress values for the subsurface formation analyzing, with the at least one processor, the image data to determine image based stress values for the subsurface formation integrating, with the at least one processor, the acoustic based stress values and the image based stress values to generate an integrated stress profile for the subsurface formation and generating, with the at least one processor, a model for the subsurface formation comprising modeled stress values for the subsurface formation based at least in part on the integrated stress profile.Ģ. Instrument display with multiple-range visual depictionsĬomparative analysis of a sample relative to a databaseĪIR FLOW MEASUREMENT DEVICE AND AIR FLOW CORRECTION METHODįlow Meter Differential Pressure MonitoringĭIELECTRIC PROPERTIES MODELS AND METHODS OF USING SAMEġ. Hierarchical Real-Time Patient State Indices for Patient Monitoringĭistributed plug-and-play logging servicesĬOMBINATION CONTAMINANT SIZE AND NATURE SENSING SYSTEM AND METHOD FOR DIAGNOSING CONTAMINATION ISSUES IN FLUIDS Method For Determining The Scope Of Detectability And Readability Of Light Signals Tilt calibration system for a medical imaging apparatus