Our success starts and ends with our customers. Each month, Eos feature new stories and customer spotlights to highlight how professionals around the world are taking advantage of submeter and centimeter locations in their mobile mapping workflows. Browse case studies, videos, customer spotlights and more to gain ideas on how external GNSS receivers can help transform work at your organization.
Filter items by the following categories
The First All-Canadian Antarctic Expedition Uses Galileo HAS and Eos GNSS to Map Underwater Features
Discover how the first all-Canadian Antarctic research expedition achieved high-accuracy underwater mapping using the Arrow Gold+ and Galileo HAS — all in one of the world’s most remote, RTK-free environments.
Jerry D. Davis and his team at San Francisco State University restore and monitor fragile montane meadows in part thanks to high-accuracy GNSS and nature-based solutions.
Delaney Hanson gained hands-on GNSS and GIS experience by mapping invasive species on Catalina Island while using the Arrow 100 with ArcGIS Field Maps.
Ella Voorhees supports critical conservation efforts in Great Smoky Mountains National Park thanks in part to Eos GNSS receivers, Galileo HAS, and ArcGIS Field Maps.
To measure groundwater salinity along the Lake Ontario shoreline, a Ph.D. student uses Skadi 100 and Arrow 100 alongside an EM conductivity meter and ArcGIS.
High-accuracy GNSS locations help Tanner Arrington protect and represent the natural world, from buried artifacts in the forest to vegetation across vast wetlands.
Habitat Restoration using GNSS, GalHAS and Laser Rangefinders in Great Smoky Mountains National Park
Three AmeriCorps GIS interns overcame the challenges of dense canopy using an Arrow Gold+ GNSS receiver, Galileo HAS corrections, and an LTI laser rangefinder. Their work will help field staff clear trees to re-establish the historic bald boundaries.
Thomas Shifflett uses high-accuracy GNSS to help locate hidden cave entrances in the dense jungles of Oaxaca, Mexico.
PESH is on a mission to explore and map México’s Sistema Huautla. The Arrow 100 GNSS receiver is helping them prove their survey findings.
Learn all about the namesake of the new Skadi Series™ — from the Norse goddess Skadi herself!
Dr. Kyle Emery leverages high-accuracy GNSS and drone imagery to deepen our understanding of coastal change.
To enable more accurate predictions about sea level rise, Dr. Kyle Emery is piloting a drone, GNSS, GIS, and satellite imagery workflow.