Geospatial - Engineering Assist - Fiber Services - Enterprise Cloud - The Layer File - Ellis City

BRIDGING THE GAP BETWEEN GIS AND ENGINEERING

Maurer-Stutz Geospatial Services (MSGS) handles many assorted projects from a wide array of client types. Different clients and jobs mean different deliverables and being able to adapt to the needs of each project. Some examples of these deliverables include:

• Preparing data for CAD and other engineering software

• Creating apps or dashboards in ArcGIS Online

• Field data collection

• Locating and mapping utilities in project bounds

When working with engineering, MSGS’s goal is to properly prepare data, or create applications that allow for seamless data collection and tracking. Below are some recent engineering projects that the Geospatial team had a hand in.

CSO INLET INSPECTIOn / peoria, illinois

The City of Peoria initiated a stormwater inlet inspection project to improve flood management and drainage efficiency. Using ArcGIS Field Maps, inspectors were able to collect real-time data on the condition of stormwater inlets throughout the city. The mobile application enabled field staff to seamlessly capture geolocated photos, assess the structural integrity of inlets, and flag maintenance issues directly from the site. This streamlined process improved data accuracy and ensured that updates were instantly available for city engineers and decision-makers.

The integration of ArcGIS Field Maps with Peoria’s GIS system allowed for the rapid identification of problem areas and facilitated efficient scheduling of repairs. Customized forms within the app enabled inspectors to quickly input specific details such as inlet type, blockage levels, and debris type. This enhanced data collection approach not only helped the city prioritize maintenance efforts but also contributed to long-term stormwater infrastructure planning and improved urban flood prevention strategies.

NRCS DAM ASSESSMENTS / KENTUCKY, SOUTH CAROLINA

Maurer-Stutz collaborates with the Natural Resources Conservation Service (NRCS) across multiple states to inspect dams and assess their risk levels based on surrounding features. These assessments provide valuable insights that guide decisions on allocating funding to maintain dams effectively.

The Geospatial team leverages various inputs—including land cover, elevation data, streamlines, and the FEMA 100-year floodplain—to develop precise models. By combining GIS technology with hydraulic modeling, we identify streamline refinement regions, pinpoint Potential Damage Locations (PDLs), and create watershed analyses. This process helps us determine which dams pose the highest risk and require the most maintenance and upkeep.

MOTOR FUEL TAX ASSESSMENT / FULTON COUNTY, ILLINOIS

Fulton County, IL required a comprehensive pavement assessment to address critical infrastructure needs, and the Maurer-Stutz Geospatial team and Transportation group provided key support. This assessment involved surveying all township roads to document pavement and shoulder types, as well as identifying road distresses. The data collected helps the county develop a data-driven plan for allocating Motor Fuel Tax funding.

The Geospatial team played a crucial role by utilizing ArcGIS Field Maps, Dashboards, and Quick Capture. With Field Maps, transportation engineers accurately identified pavement types and other road features. Quick Capture allowed for the rapid collection of GPS points to mark pavement distresses, while a customized Dashboard was used to monitor progress and track identified issues throughout the project.

UTILITY NETWORKING / CANTON, IL

Canton, IL sought to update their utility data to better understand the connectivity of their water lines, automate data analysis, and create a visual representation of their water networks. By applying customized rules and parameters, the Utility Network provides clients with a deeper understanding of their systems while enhancing security and operational efficiency.

Using the Utility Network extension in ArcGIS Pro, we can transform existing utility data into a detailed, interconnected model featuring components such as pipelines and valves. This advanced system allows us to track how water moves through the community and helps mitigate risks, such as water main breaks, by enabling pipe isolation and tracing the issue through upstream or downstream analysis.

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