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InSite-HF™ is our specialist software tool for setting up a microseismic hydraulic fracturing project and then guiding the user through to data acquisition and processing.

Click here to download a brochure with full details of the functionalities and applications of InSite-HF. To request a quotation for InSite-HF please contact us here or email us at asc-info@appliedseismology.co.uk

DESIGN: Microseismic survey design tools to plan arrays and meet engineering objectives.

ACQUISITION:
 Real-time data acquisition and processing with customisable triggering settings.

PROCESSING:
 Manual and automated processing with efficient workflows. Complex velocity models and sophisticated algorithms for microseismic location.

INTERPRETATION:
 Enhanced interpretation of microseismic clouds. Characterise hydraulic fracture geometry and the microseismic geomechanical response to an injection.

UNDERSTANDING:
 Interpretation tools for post-analysis of completion objectives and stimulation effectiveness. Microseismic survey design tools to plan arrays and meet engineering objectives.

ACQUISITION: Real-time data acquisition and processing with customisable triggering settings.

PROCESSING: Manual and automated processing with efficient workflows. Complex velocity models and sophisticated algorithms for microseismic location.

INTERPRETATION: Enhanced interpretation of microseismic clouds. Characterise hydraulic fracture geometry and the microseismic geomechanical response to an injection.

UNDERSTANDING: Interpretation tools for post-analysis of completion objectives and stimulation effectiveness.

InSite-HF™ is ASC's specialist software product for setting up a microseismic hydraulic fracturing project and then guiding the user through data acquisition, processing and interpretation. Microseismic events can be located through simple and complex velocity models. Manual and automated waveform processing can be carried out with comprehensive import and export of raw and processed event data. Seismic events, field objects, geological structures and analysis objects can be visualised within a 3D volume.

InSite-HF™ provides tools for importing, processing and visualising seismic data with a high-level of automation, making processing and reprocessing a simple work flow.

InSite-HF™ is developed in a version controlled environment within a quality management system. InSite™ has been available as a commercial product for two decades and has been used by leading companies for real-time monitoring, quality assurance, post-processing, reprocessing and advanced analysis.

We provide customised solutions for specific monitoring projects and setups. Contact us here or at asc-info@appliedseismology.co.uk to discuss your specific needs and how InSite-HF can be developed to fit your project.

Technical support is provided by geophysicists with experience in commercial projects in the oil & gas and geothermal sectors. We offer open software training courses from our Shrewsbury office and can provide bespoke training solutions for companies online or in person.

 

InSite-HF Features

  • Real-time and off-line of microseismic event detection and processing.
  • Customised alarm system for rate or magnitude threshold exceedance.
  • Frac Manager Tool to guide users through the project setup, data acquisition and processing flow of a microseismic hydraulic fracturing project.
  • Manual or automatic processing of event data with range of sophisticated automatic arrival-picking, source location and source parameter algorithms.
  • Processing of MS events acquired through multiple synchronised acquisition systems.
  • Rotation of waveforms from triaxial or quadraxial instruments into ray coordinate systems and display of particle motions on hodogram plots.
  • Tool orientation from multiple calibration shots.
  • Graphical interface for manual and automatic calibration of velocity models using multiple calibration shots.
  • Display of colour-density sonograms and polarisograms.
  • Ray-tracing algorithms with complex velocity structures to locate microseismic events within a 3D volume (including anisotropy).
  • Storage and management of event parameters and waveforms on a shared remote PC for easy access by multiple users managed with Microsoft's SQL server.
  • Display of the event locations in a 3D scene, allowing rotating, panning, magnifying and flying through the scene plus creation of hot-planes and 3D objects.
  • Advanced interpretation tools for charting; spatial and uncertainty analysis.
  • Analysis of array performance through the calculation of magnitude sensitivity, error space, location error and shadow space.

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