![]() Urban planners must also stay attuned to the landscape in their area and can utilize GIS technology to analyze and manipulate data. They must stay up-to-date on zoning codes, environment regulations, and legal issues. ![]() Urban planners can be utilized for communities of any size-small towns, large cities, and entire counties.Ī great deal of data is needed for an urban planner to make an informed decision. As a community grows and changes, urban planners are there to help manage economic, social, and environmental changes that may arise. For example, an urban planner might approve plans for a new school to ensure it meets the needs of a growing population. The outcomes are typically mapping out plans to build communities, accommodate growth, revamp local physical facilities, and more. Urban Planner – An urban planner develops procedures and programs for the use of land. Those seeking this career path can obtain a GIS certificate from an accredited program many universities offer GIS degrees as well. While the majority of this work can be conducted remotely from a computer, GIS specialists are sometimes required to visit a site in order to compare the landscape to the data in the GIS system. These specialists can create maps of certain areas using GIS technology and use that information to perform duties such as locating special features within a landscape.Ī GIS specialist can be a full-time career, as a person in this role can act as a consultant to organizations who can benefit from the data extracted from GIS software. For example, a GIS specialist can assess the geospatial data of a region to determine the best escape route and then have the responsibility of mapping out an estimate time needed during a natural disaster. They analyze the spatial data stored in the geodatabases within these tools to solve problems related to a specific site or area. GIS Specialist – A GIS specialist is an expert in geographic information systems. This technology is prevalent in a number of other professions: Once that data has been inputted, GIS technology can transform it into a map. As long as it has been digitized, it can be inputted into a GIS program. Digital data is collected from satellites that show land use.Īll varieties of data can be inputted into GIS mapping tools through data capture. Data from photographic interpretation analyzes aerial shots of a site. ![]() GIS programs require both hardware and software, such as the desktop needed to display information.Ĭartographic data is already in map form and includes information such as the location of rivers, roads, valleys, hills, and more. These data types include cartographic, photographic, and digital data to provide a complete picture. The first step in this mapping technology is capturing data. These tools act as asset management platforms for the geographic data they capture, meaning GIS technology has the ability to understand patterns and improve operations in land-based operations.Ī GIS is a technology rooted in geographic information science that allows users to dig into geospatial data. Geographic information systems, better known as GIS software, are tools that capture, analyze, and display geospatial data to make 2D or 3D maps. To qualify for inclusion in the Geographic Information System (GIS) category, a product must: GIS often integrates with CAD, BIM, and other drafting and design software to enhance its analytics capabilities. Typical implementations can result in a savings in operational expenses. GIS can be deployed on-premises or in the cloud. GIS software usually focuses on gathering, analyzing, and displaying geographical data to manage business operations. GIS data usually displays different kinds of data on one map, to facilitate deep analysis and efficiently use as much data as possible. GIS collects, incorporates and manipulates attribute data from maps to a business’ reporting systems to analyze and assess real-world problems. sales territory management, field service dispatching, asset maintenance, transportation or construction). Companies use GIS to manage geographical data in order to improve operations in many geoscience industries as well as land-centric enterprises (e.g. A geographic information system (GIS) lets users visualize, question, analyze, and interpret geographical data to help them understand and problem-solve relationships, patterns, and trends.
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