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Products classified in the overall GIS category are similar in many regards and help companies of all sizes solve their business problems. However, enterprise business features, pricing, setup, and installation differ from businesses of other sizes, which is why we match buyers to the right Enterprise Business GIS to fit their needs. Compare product ratings based on reviews from enterprise users or connect with one of G2's buying advisors to find the right solutions within the Enterprise Business GIS category.
In addition to qualifying for inclusion in the GIS Software category, to qualify for inclusion in the Enterprise Business GIS Software category, a product must have at least 10 reviews left by a reviewer from an enterprise business.
ArcGIS is a comprehensive suite of mapping and location intelligence tools and capabilities. ArcGIS can be deployed on local machines (ArcGIS Pro), on your remote or on-premises servers (ArcGIS Enterprise), or as SaaS hosted by Esri (ArcGIS Online). ArcGIS includes focused apps to deliver complete solutions for your business or organization. Along with software, Esri provides a comprehensive collection of data and content to geo-enrich your own data. ArcGIS also provides rich software developmen
BatchGeo is the easiest way to get your list of addresses on a map. Since 2006 BatchGeo has hosted millions of maps for Fortune 50 companies, non-profits, and individuals. The idea behind BatchGeo is most geographic data is stored in some sort of spreadsheet, list, or simple table (ex: Excel, CSV, Google Spreadsheets, etc.) So its optimized for those formats, making it super easy to drag in or copy/paste your tabular data into a map. Once your data is mapped the real fun begins. Your data poin
Connect people, locations, and data using interactive maps created with ArcGIS Online. Quickly create maps by dropping in your spreadsheet and mashing it up with other location data included in ArcGIS Online. Apply Smart Mapping styles to make your data visually stunning and use intuitive analysis tools to deliver location intelligence. Add valuable context to your data by combining it with Esri’s demographic and lifestyle data. Work collaboratively with your colleagues to build maps and apps. I
Location-based decisions: Explore, model and act with confidence. Harness the power of sophisticated mapping and geographical analysis software to make intelligent and productive business decisions. Location adds complexity to many decisions, and mistakes are too expensive for a “trial and error” approach. With MapInfo Pro, customers can easily identify – and make better decisions on – people, places, and patterns of interest. More and more people need to explore, model and act with confidenc
Part of the Esri Geospatial Cloud, ArcGIS Pro is Esri’s powerful, single desktop GIS application. Technologically ahead of everything else on the market, ArcGIS Pro supports data visualization, advanced analysis and authoritative data maintenance in both 2D and 3D. ArcGIS Pro is tightly coupled with the ArcGIS platform supporting data sharing across ArcGIS Online and ArcGIS Enterprise through Web GIS.
Maptitude GIS and mapping software gives you the tools, maps, and data you need to analyze and understand how geography affects you and your organization. Maptitude is the most capable, and least expensive, full-featured mapping software available. With Maptitude you can create maps and map images from spreadsheets and you can see external data on the map from a variety of sources including Google Maps KML/KMZ files. Designed for data visualization and geographic analysis, Maptitude comes with
Manage, map, analyze, and share Geographic Information Systems (GIS) data with ArcGIS Enterprise, the complete geospatial system that powers your data-driven decisions. ArcGIS Enterprise gives you a secure, browser-based mapping and analytics platform that leverages Esri’s powerful technology and extends your capabilities in the areas of real-time, big data, imagery, and more.
Surfer® is a full-function 2D and 3D mapping, modeling, and analysis software package for scientists and engineers. Surfer's sophisticated interpolation engine quickly transforms XYZ data into publication-quality maps. Virtually every aspect of the map is customizable. Enhance maps with profiles, legends, titles and labels, faults and breaklines, or external maps from any web mapping service. Surfer is used extensively by geologists, geophysicists, hydrologists, archaeologists, oceanographers,
Geographic information systems, better known as GIS software, capture, analyze, and display geospatial data to make 2D or 3D maps. 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. Desktop GIS mapping software typically integrates with a number of drafting and design tools, such as BIM or CAD solutions, to take its analytics capabilities to the next level. These tools also allow users to analyze valuable data such as land use and location of geographic features, including rivers or mountains, right from their desktop.
A geographic information system (GIS) is a technology rooted in geographic information science that allows users to dig into geospatial data. The first step in this mapping technology is capturing data. These data types include cartographic, photographic, and digital data to provide a complete picture. GIS programs require both hardware and software, such as the desktop needed to display information.
Cartographic data is already in map form and includes information such as the location of rivers, roads, valleys, hills, and more. Data from photographic interpretation analyzes aerial shots of a site. Digital data is collected from satellites that show land use.
All variety of data can be inputted into GIS mapping software through data capture. As long as it has been converted into a digital format, it can be inputted into a GIS program as two different types of files. The first type, a raster, is a grid of cells and pixels. Raster files are typically used to store GIS data that may vary, such information from a satellite. The second type is a vector, which is formatted as a polygon using points and lines. These files are useful for storing data with firm borders, such as a street. Once that data has been inputted, GIS technology can transform it into a map.
GIS technology has already seeped into consumers’ lives. Location-based games, such as Pokémon Go, have become more common. Whenever a consumer performs a Google search, location-based marketing allows for businesses to make sure potential customers in their immediate area see their product or service. GIS tools power the location-based services that make these possible. This technology is prevalent in a number of other professions:
GIS Specialist – A GIS specialist is an expert in geographic information systems. They analyze the spatial data stored in the geodatabases within these tools to solve problems related to a specific site or area. 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. 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.
A 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. 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. Those seeking this career path can obtain a GIS certificate from an accredited program; many universities offer GIS degrees as well.
Urban Planner – An urban planner develops procedures and programs for the use of land. The outcomes are typically mapping out plans to build communities, accommodate growth, revamp local physical facilities, and more. For example, an urban planner might approve plans for a new school to ensure it meets the needs of a growing population. As a community grows and changes, urban planners are there to help manage economic, social, and environmental changes that may arise. Urban planners can be utilized for communities of any size—small towns, large cities, and entire counties.
A great deal of data is needed for an urban planner to make an informed decision. They must stay up-to-date on zoning codes, environment regulations, and legal issues. Urban planners must also stay attuned to the landscape in their area and can utilize GIS technology to analyze and manipulate data. GIS technology can be used to overlay a land map with population density indicators, which could show the best use for a piece of land. While an urban planner likely needs to perform site visits, they may also utilize a desktop GIS to analyze this data from their own office.
Environmental Scientist – An environmental scientist assesses the health and stability of a given landscape. This includes a great deal of fieldwork tests and surveys to gather soil, water, and air samples. The geospatial data collected is then analyzed for negative indicators, such as pollution. An environmental scientist’s findings can be collected into an official report that may be presented to policymakers or other organizations concerned about environmental issues.
Environmental scientists rely heavily on GIS applications to succeed in their work. These tools capture the geographic information necessary to effectively map out the health of a physical area. This mapping technology has the ability to capture data from all aspects of a landscape—aerial, water, land—and then display as a variety of different maps. These solutions can also map changes in a specific area, which is hugely beneficial to an environmental scientist as it can fuel a course of action or anticipate future land conditions.
Public Health Professionals – Public health professionals are dedicated to protecting and improving the health of communities. Those in this field are focused more on preventing disease and injury rather than treating it. Public health intersects with a number of more specific fields to improve the health of the community. Epidemiology tracks the distribution and severity of diseases, along with how to prevent them from spreading. Biostatistics applies statistical and mathematical methods to the analysis of public health issues.
Environmental health is concerned with the quality of food supply, water and air pollution, and disease prevention. This is where GIS tools come into play. The use of a GIS and the spatial data it captures can help public health professionals come to decisions as well as predict outcomes. For example, public health officials can use GIS technology to map out potential risk from a contaminated water source. A desktop GIS program can also display information such as drug usage in a certain area.
Law Enforcement – Law enforcement officers can track crime trends within GIS software using crime mapping, which maps, visualizes, and analyzes crime incident patterns within their jurisdictions. These crime hot spots can be identified through the usage of GIS programs. Crime analysts can use a desktop GIS to overlay data sets such as census demographics. With this information, police officers are able to identify physical locations and potentially understand the underlying cause of crime in a certain area. GIS mapping software can also be useful for allocating police officers during emergency situations.
GIS software is of course vital for creating maps, but that is not the only application for this technology. These tools capture data that can be utilized by small, mid-sized or enterprise businesses in many fields.
A GIS helps users make more informed decisions. When working with a physical location, you need to understand every aspect of it—air, land, water, surrounding area, and more. A GIS captures this array of data, detailing various aspects of a landscape, and stores it all within one platform. Visualizing this data aids in identifying areas of opportunity and potential issues, such as the best route for an evacuation during an impending hurricane.
The geospatial data stored within these platforms even helps provide answers about things other than the physical landscape itself. Demographics of the surrounding population, social, real-world business problems, and political information can be gathered using a GIS. Features such as overlaying and data visualization connect the dots and create relationships between seemingly unconnected qualities, such populations with geographic features. For example, if a business needs to open up a new storefront, GIS software can be used to find a site of land near a highly populated area. Data can then be manipulated to account for inevitable population change in the surrounding area.
GIS software is specifically designed to visualize data. Reading and understanding statistics and data can be incredibly challenging. Data visualization is a key component of GIS technology, which means that the inputted data will be presented in a clear and comprehensive manner. Using a GIS solution, you can layer your datasets into one image and find the connections between each dataset. Bringing this data to life also allows you to view it from a different perspective, which can provide a fresh insight on a potential problem needing to be solved. You can create multiple maps within GIS platforms, which enables you to track and visualize the change in a certain area over time.
Conserve natural resources with GIS technology. GIS software has the ability to manage and maintain agricultural, water, and forest resources. These tools easily manage data on forest conditions as well. The geographic distribution of water resources can be analyzed through GIS technology. These two resources are also connected—as tree cover tends to decrease stormwater runoff.
GIS software allows for better geographic information record keeping. Many organizations are required to maintain thorough geographic records, such government and environmental science agencies. GIS software is at the foundation of creating policies such zoning laws, population censuses, and land ownership. Record keeping is vital when creating and upholding these laws, and GIS software can store the geographic information necessary.
Track the spread of infectious diseases with GIS technology. On top of mapping trends in geographic features, GIS technology is used to follow trends that relate to the spread of disease. Users can leverage desktop GIS solutions to compare geography with other relevant variables and predict where an infectious disease might spread next. This data enables on-the-ground personnel to quickly work to save lives of local residents.
Automate previously tedious tasks with GIS software. Before GIS software, gathering data needed for any land, environment, map, pipeline, or city planning could be incredibly time consuming, due to the fact that one platform was unable to capture and store data from various sources. In addition, each data sample was collected and stored individually. However, GIS software acts as a repository for this data and converts it into the correct format, if necessary. GIS technology then takes this one step further and allows users to also design, update, and edit in the same platform where their geographic data is stored. These solutions also provide the tools needed to analyze this data, which gives organizations more time to focus on other urgent and critical tasks.
Plan more cost-effective communities with GIS software. Governments rely on thorough planning when it comes to building and expanding their communities. However, government organizations, especially smaller municipal ones, can face difficulty when it comes to the economy. Expanding a community while sources are diminishing gets expensive. GIS technology provides a way for government organizations to expand their communities in the most cost-efficient ways possible, as the data provided by GIS technology allows them to make more informed choices about decisions such as land usage and locations of physical facilities. Governments can utilize a free GIS solution to continue to drive costs down.
Create more efficient schools with GIS technology. A common issue within communities is needing to redistrict school boundaries as the local population ebbs and flows. GIS programs capture and store addresses for all students at the school. Using feature-based proximity tools, you can manipulate the borders of these zones and a GIS relates the student counts by grade of this proposed boundary. Even after school district zones have been nailed down, a GIS can continue to benefit schools. School administrators use GIS technology to analyze the distance students walk to school. If a student lives a certain distance away, GIS tools continue to analyze the data to determine which students are eligible to take school buses. As schools may not a lot of budget dedicated to non-essential technology, they can utilize a free GIS platform for these tasks.
Plan for natural disasters using GIS technology. One of the main uses of GIS technology is protecting the environment. The flip side of that is protecting citizens from potential dangers of their local environment. GIS tools help with risk management by assessing which areas are at risk for natural or man-made disasters. Communities can then take this data and develop preventive measures. And when natural disasters are unavoidable, GIS technology can still help. These tools aid in the planning of emergency evacuation routes and help estimate the damage from floods. In addition, GIS helps local governments document the needs for federal disaster relief funds.
While specific features may vary across different GIS solutions, the following features are typically found in geographic information systems:
Data Capture – This is simply the act of inputting data into a GIS. Relevant data can be grabbed from a number of sources. A GIS should be able to convert your data to a raster or vector file that will be compatible with your tool.
Remote Sensing Integration – Remote sensing is making measurements of a specific location on the earth through airplanes or satellites. These sensors have the ability to collect data in the form of images. As part of its data capture functionality, remote sensed imagery should easily integrate with a GIS.
Data Warehouse – GIS software stores the data on geographical features and their characteristics. It uses that data to publish maps. Just as GIS solutions capture data in multiple formats, said data is stored in multiple formats as well. Map city data can be stored as points, road data formatted as lines, boundaries as areas, and so on. Storing this information is what allows a GIS to identify features located in a map.
Buffer Zone Querying – Buffer zone querying is the ability to select a point on a map and display any given data within a certain radius. These buffers are used to show an area of influence around a location. For example, a buffer can be used to section off a radius around a school to plan for the transportation of students who live farther away. Some GIS tools may refer to buffer zone querying by other names, such as feature-based proximity tools.
Editing Data – The features of the landscapes you study change, which means your data will change as well. A GIS will enable you to keep up with these changes by allowing you to edit your data. Specific revision features and processes will vary in each GIS, but they should all offer the ability to edit your data.
Data Visualization – The data visualization component of a GIS is what brings your data to life, in either a 2D or 3D format. A GIS displays the data you input as an easy-to-read map right on your desktop. This function may allow for additional features, such as adding pop-ups, charts, and infographics to maps.
Geocoding – This feature assigns locations to the addresses you need to keep track of so they may be placed as points on a map. It can be thought of as a digital version of putting a pin on a location on a physical map. Some tools may refer to this feature as address-matching.
Spatial Analysis – This may be one of the key features of a GIS, as this ability allows users to dig into their data and make informed decisions, predict patterns, and more. Spatial analysis is at the core of publishing a map.
Overlaying – Overlaying makes it possible to visualize many different forms of data in one image. This function superimposes multiple datasets into one image to identify the relationships between them. Most GIS software provides overlaying capabilities for both vector and raster data.
Publishing Maps – Creating maps is the end goal of GIS software. All of these features, such as overlaying and data editing, contribute to the creation of a map. Once your data is set, you can simply print the map out on a corresponding printer. Some GIS tools may run one final analysis of your data before printing the final map.
With its wide range of capabilities and applications, GIS technology offers a plethora of benefits. But that does not mean this software does not come without its challenges.
Integrating with traditional maps. While the data captured and stored in GIS platforms is incredibly beneficial to users, it is also extremely complex. It can therefore prove difficult to integrate a traditional map with GIS technology. It may be not be possible to grab meaningful geospatial information from a GIS, as many only store and analyze the data collected from the platform itself. Reach out to the GIS vendor you select to determine if this integration is possible.
GIS software is expensive. GIS software is hugely beneficial to users, as it collects a massive amount of data from various points. It can cost a lot to gather, input, and connect all of this data. Corresponding hardware, along with potentially needing to hire an expert in GIS, continues to drive those expenses up. While they may have some limited features, budget-conscious users can leverage a free GIS for their business.
Vast amounts of data may be difficult to manage. It’s great that GIS technology allows users to capture and store large amounts of data, but someone has to comb through all that information. Because there is so much data, this could lead to data generalization, which means you may be at risk for losing information. Large amounts of data also require massive storage space, which increases the cost and manpower required to run your GIS.