ArcGIS & ADMS Network Modeler Remote Duration: 6 Months (Contract to Hire)
Additional notes: Experience with ADMS (Advanced Distribution Management Systems) is MUST.
With regard to developing and analyzing additional data sources for ADMS The worker will load data from open C, fleet systems to the ADMS
Heavy focus on the GIS side, pulling data and loading it in to the ADMS. Loading circuits, troubleshooting what occurs when they fail, and ensuring a process is managed to handle failures
ArcGIS and Smallworld experience are highly preferred
Bachelor's degree Required. Degree preferred in Computer Science, Computer Engineering. Software Engineering, Information Technology, Computer Information Systems, Geographic Information Systems, MIS, or Engineering.
We are seeking an experienced Network Modeler (GIS-focused) to support our client s Schneider Electric ADMS environment. This role involves creating, maintaining, and troubleshooting electrical network models including distribution, substation, and transmission systems with a strong emphasis on GIS data integration and model accuracy.
The ideal candidate will have strong GIS expertise, hands-on experience with ArcGIS and Smallworld, and a solid understanding of utility network modeling within ADMS systems.
Key Responsibilities:
Create, update, and maintain electrical network models (distribution, substation, and transmission) within the Schneider Electric ADMS.
Import and validate GIS data; identify, analyze, and troubleshoot data errors.
Define and communicate data cleanup requirements to the GIS team.
Perform device testing and commissioning support for new assets in the network model.
Qualifications & Skills:
Experience: 4 7 years in GIS or electrical network modeling.
Education: Bachelor s degree required (preferably in GIS, Electrical Engineering, or related field).
Technical Expertise:
Strong hands-on experience with GIS platforms ArcGIS and Smallworld required.
Familiarity with Schneider Electric ADMS or similar systems preferred.
Understanding of distribution and transmission network structures.
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