No image available
No image available
Your request is being processed.
Emerson-P-RiskFrame DIMP Modeler Software

RiskFrame™ DIMP Modeler Software

Consult an Expert
Contact Sales

Product Description

Emerson's (formerly GeoFields) RiskFrame™ DIMP Modeler Software models and prioritizes risk on a gas distribution pipeline system by bringing in spatial and tabular data from across the enterprise and applying an organization’s risk algorithm or algorithms. This advanced software creates and runs simple or complex risk algorithms which generate risk scores for distribution network assets, including pipe segments, valves, meters, regulators, and other related equipment. Built-in data processing translates spatial feature classes into feature tables that can be combined with other tabular data to evaluate asset risk. Using a risk-based approach to distribution integrity, RiskFrame DIMP Modeler quickly identifies high risk assets, enabling operators to extract and review data to develop repair and mitigation plans with shared results for mapping and online analysis.

Features

  • RiskFrame Modeler Software stands on top of an operator’s enterprise database of defined tabular and spatial data sets yet works in combination with existing data to create the most robust risk dataset.
  • Support for most data models, such as UPDM, ArcGIS Gas Distribution Data Model, or a proprietary Esri®-based geodatabase.
  • The software incorporates a spatial processing tool to translate spatial feature classes into tables that become part of the same data library utilized throughout the organization.
  • Rather than manage multiple copies of data or systems of record, all new data is incorporated into the enterprise database for seamless integration into the existing risk model.
  • Calculate risk at the individual pipeline system asset level; built-in data processing translates spatial feature classes into feature tables to be combined with other tabular data to evaluate pipeline risk.
  • The software uses a project concept to manage how models proceed, with model filters applied that restrict an analysis to certain lines or systems; once a model is run, a project archive is updated with the results of that particular pass, with archived reports stored at the enterprise level.
  • The net effect of any proposed change(s) in source data state can be modeled for any factor or formula within a risk model without editing the model or committing any actual changes.
  • By running multiple scenarios, the software quantifies changes to threat or risk levels, allowing better risk and expense mitigation by providing objective justification for the optimal remediation activity.
  • The What-If Scenario Report displays both the original and potential model result records side-by-side, enabling users to directly measure the sensitivity of the risk model to integrity management practices.
  • A one-to-one relationship is maintained betwen risk calculations for individual assets and the distribution system hierarchy, which allows users to understand how each asset contributes to overall system risk.
  • Any factor formula within the risk model can be displayed, identified, sorted, symbolized, labeled and exported, allowing an engineer to gain valuable knowledge of the spatial risk results without being a GIS expert.
  • Multiple reporting options allow users to extract and review data to develop risk and mitigation plans, with results shared for mapping and online analysis.

Documents & Drawings