In your job as a planner, we know you're often fielding basic questions about public transit. We hope this Remix Primer blog series offers another resource as you educate your constituents.
GIS — short for a Geographic Information System — is a powerful tool that illustrates data in action. The platform transforms spatial information into interactive maps that allow users to visually evaluate location-specific situations from a holistic, multivariate viewpoint.
This empowers decision-makers to imagine a strategic plan’s full range of potential outcomes and impacts, drawing conclusions that maximize a project area’s value and utility. By presenting data from multiple sources into practical visual displays, GIS supports:
But traditionally, the value of this purpose-driven planning approach is only as strong as a user’s expertise — and their ability to involve input from all the right collaborators. Remix closes these gaps, leveraging GIS benefits into an intuitive, easy-to-use software that allows for unlimited access to those involved in making your next transportation planning project a success.
GIS software provides the platform through which users can merge their data with geography, producing an immersive map that illustrates the real-world impacts of different decisions.
Its systems manage this visual interplay by:
The platform’s power rests in its ability to answer questions that inform effective planning. Using its image processing base map, the software’s analysis tools tell the story behind the data. Its analyses draw connections between geospatial features like:
GIS uses this spatial data to solve problems. By integrating various datasets and showing how they interact, users can spot solutions while predicting outcomes, identifying challenges, and reducing the risk of unintended consequences from any action plan.
This geospatial analysis helps to isolate the best solution within a specific context, answering core questions like:
These questions are just examples of how GIS can be applied. With this tool’s innate flexibility, users can leverage this data processing to serve their goals. This customization has established GIS software as the gold standard to guide strategies across a wide range of industries from:
GIS combines five major components that together power its tailor-made applications. It starts with a robust foundation, from which GIS can incorporate user-specific variables to create a spatial tool customized to meet specific objectives.
Hardware refers to the equipment that supports an organization’s GIS workflow, ranging from its data aggregation to analysis and map distribution. Depending on the scope of a project’s GIS needs, this can include:
There’s a range of software options that power GIS functionality, helping to store, organize, and transform data while serving specific organizational goals. Software variations include those built for:
Geospatial data is at the fuel that powers GIS. The system incorporates several types of information within its geodatabase, including:
Whereas the GIS platform provides the foundation for geospatial analysis, it’s the user who acts as the catalyst. Professionals working with GIS can maximize the functionality of the software by:
A well-designed process ensures that GIS effectively serves an organization’s specific goal, streamlining its workflow while amplifying the software’s potential. It should address:
GIS simplifies the planning, monitoring, and maintenance of complex networks, especially those like transit systems subject to a range of interlinked variables.
From determining capacity enhancements to identifying the most strategic investments, GIS informs decision-making that optimizes transportation networks. The right software also encourages multi-stakeholder collaboration since geospatial maps clearly show the extent of problems and the impact of solutions — while respecting the socio-economic, environmental, financial, and other ramifications connected to a project’s success.
That’s why transportation planners turn to GIS mapping software like Remix. Our secure, easy-to-use platform transforms data into answers project planners can understand and communicate at-a-glance, overcoming barriers to goals like:
We manage and maintain your data so that your team can turn their ideas into designs that illustrate trade-offs and impacts alike. With these complex concepts laid out in an easily digestible visual format, a project’s value gets communicated more effectively as well — so you build consensus faster among key stakeholders, including the public.
Schedule a demo to see how Remix can support better outcomes for your transportation planning needs, joining the transit agencies, municipalities, and organizations that leverage our collaborative, purpose-driven GIS interface to deliver better results.
Public transportation planning is a complex process that relies on strings of data and modeling to forecast future transit trends. This article examines ways to streamline the planning process and develop better public transport services.
In order to create the most effective, accurate, and impactful planning process, it’s important to use cutting edge visualization tools.