After a trial of two Arrow 100s, CountryMark now relies on a fleet of 16 Eos GNSS receivers across teams. This upgrade helps map pipelines more efficiently, while also meeting federal accuracy requirements.
Felecia Helms is improving infrastructure response times by integrating high-accuracy GNSS locations into a new outage management system.
Garrett Black enhances efficiency and safety at a Kentucky utility with high-accuracy GNSS technology, including Skadi Tilt Compensation.
EWSU is streamlining inspections and minimizing delays by updating asset locations in real time while using Eos GNSS receivers and the ArcGIS Utility Network.
To meet increasing services demand, Seguin is mapping water, sewer, and electric assets with survey-grade accuracy. This helps avoid construction incidents during development and streamlines future asset management.
Vanessa Pocock uses high-accuracy GNSS and GIS to improve services for residents and visitors in the Resort Municipality of Whistler.
Aaron Krohn prepares his utility for the future by improving field accuracy and efficiency, in part thanks to GNSS.
The GIS Program at Washington College created accurate digital maps to update those available for Tuckahoe State Park visitors. They used an Arrow Gold and ArcGIS Field Maps.
Ryan Key uses high-accuracy location data to enhance inspections, improve maintenance responses, and increase confidence in utility data.
The Resort Municipality of Whistler equips departments with a high-accuracy mobile data collection workflow to support grant applications.
Dr. Kyle Emery leverages high-accuracy GNSS and drone imagery to deepen our understanding of coastal change.
Discover how this pivotal program teaches public high schoolers how to use GIS, GNSS, drones, and related technology.