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Mapping Class: Georeferencing Techniques Part One – The Basics, with Hans van der Maarel

Welcome back to another exciting edition of Mapping Class, a new video-blog series where we curate tutorials and workflows created by expert cartographers and Avenza power users from around the world. For this article, we are excited to introduce Hans van der Maarel, owner of Red Geographics, and expert cartographer. Joining us from Netherlands, Hans has put together a video tutorial showcasing tips and tricks for tackling Georeferencing in a variety of different mapping scenarios. In this first part, Hans goes over the basics of georeferencing in MAPublisher, using a neat city map of Zevenbergen. Tune in for Part Two, coming soon, which will reveal how Hans approaches more challenging georeferencing tasks, including dealing with unknown projection information and working with historical maps.

Hans has produced a short video walkthrough detailing part one of his georeferencing process. The Avenza team has produced video notes (below) to help you follow along.

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Georeferencing Techniques Part One: The Basics
by Hans van der Maarel (video notes by the Avenza team)

Georeferencing is the process of taking imagery or map data that lacks geographic location information and associating it with specific coordinates on Earth. Georeferencing is a very common, but sometimes challenging step that is necessary for producing accurate, meaningful cartographic products. By georeferencing map data, cartographers can ensure that the features on their maps are located correctly, and in a way that accurately represents the real world. Georeferencing also makes it easy to add and update maps with new data layers, as location information stored within the new map layers will be accurately overlaid in the correct position on older map projects. The process for georeferencing maps can be complicated, but Hans has outlined some easy-to-follow steps for quickly performing and validating simple georeferencing tasks with vector map data.

In general, effective georeferencing needs to include at minimum three known control points. In this example, Hans has included an additional fourth control point to provide additional accuracy. 

When locating control points, it is a good idea to choose points that roughly approximate the four corners (quadrants) of your map area. Doing so can ensure the georeferencing result is accurate for the entire coverage of the map area and minimizes distortion/shearing effects as the map layers are matched to the final coordinate system. Cartographers should take time to ensure the chosen control points are as accurate as possible, as errors in control point placement will propagate across all locations in the map. Poor control point placement can lead to overall poor georeferencing accuracy. 

Using the MAP Page location tool, place four control points at known, easily identifiable locations. Hans recommends placing control points at recognizable map features that can be easily seen on the reference imagery. For this example, Hans chose to use the corners and edges of major structures (i.e larger buildings/reservoirs) or the centers of well-known major road intersections. When using road features as reference control points, Hans recommends using the center of the feature rather than the edge. This can compensate for variation in road edge placement that can occur when the vector line layer does not completely match the true road/lane width in the imagery.

Mapping Class Georeferencing control point

Next, open the Georeferencing tool and select the “Add World Locations” option. From here, use the built-in web map to calculate latitude/longitude coordinates for each of your known control points. Using the satellite imagery view can make this process easier, especially when dealing with physical features on the map (i.e building corners). Repeat this for each of the four control points.

The resulting table will show a list of set coordinates for each of these control points. From here, if you already know the projection the map data is already in, you may set this coordinate system at this stage. If you are unsure, the georeferencer tool will automatically provide a suggested list of coordinate systems that match the control points you have set. These “best” matches are provided based on measuring the error between your user set coordinates and the real-world locations on the web map. Ideally, you want the lowest combined error value. In general, the suggested coordinate systems at the top of the list are often the best choice.

Once you select the desired coordinate system, the tool will automatically create a new MAP View where you can house your newly georeferenced map data. You will notice that the MAP Page Locations you created earlier will be displayed alongside the newly georeference control points. This is a great way to help validate your georeferencing as you will be able to observe the accuracy (or inaccuracy) of your placed control points.

Finally, it is a good idea to use the Find Places tool to validate your georeferencing results. Try searching for identifiable landmarks or major features on your map (i.e. train stations). Simply search for a location using the Find Places tool, and compare this to the georeferenced locations on your map.

This concludes Part One of “Georeferencing Techniques with Hans van der Maarel“. Now that you have covered the basics of Georeferencing in MAPublisher, tune in for part two in the next edition of Mapping Class. There you will see how Hans tackles more complex georeferencing projects, including what to do when you have small-scale maps that come from scanned or printed images, or where projection or referencing information is unavailable. Hans will be using a beautiful historical map of northwest Africa to demonstrate this problem. Look for it in the Avenza Resources Blog next month.

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About the Author

Hans van der Maarel is the owner of Red Geographics, located in Zevenbergen, Netherlands. Red Geographics is a long-time partner of Avenza and Hans is a well-known power user of both MAPublisher and Geographic Imager. He uses the products for a wide range of cartographic projects for several international organizations and offers training courses and consultancy expertise aimed at developing workflows for clients. In addition to that, he is currently a board member of NACIS. To find out more about Red Geographics, and to see more work by Hans, visit redgeographics.com

What’s New in MAPublisher 10.8

What’s New? MAPublisher 10.8

We are happy to announce that MAPublisher 10.8, the latest update to the MAPublisher plug-in for Adobe Illustrator, is now available. With this release, we are excited to bring forward new usability enhancements for several MAPublisher tools. We are also thrilled to confirm that MAPublisher now supports raster files in the enhanced compression wavelet (ECW) format. Alongside these enhancements, we have also implemented improvements and added expanded support to our coordinate system library.

Here is what you can expect with the latest MAPublisher 10.8 release:

Usability Improvements for MAPublisher Tools

The Avenza team is always working to improve the capabilities of our vast suite of cartography tools. We work with our users to implement improvements to our tool catalog that truly meet the needs of actual mapping professionals. In this release we are introducing several enhancements to some of our existing tools:

Multi-Column selections in the Attribute Table Editing Schema

In the early versions of MAPublisher 10, we added the ability to select multiple columns within the Edit Schema window of the MAP attributes panel, allowing users to toggle visibility settings on multiple attribute columns at the same time. Now with 10.8, we are delighted to build on this by implementing the ability to configure data properties across multiple selected attribute columns. Users can not only toggle visibility or remove multiple attribute columns at once, but can now also edit default values, attribute size, and read-only settings for all selected values. Additionally, users can now change the data type (i.e string, integer, boolean, etc) for multiple selected attribute columns all at once, as long as each column shares the same starting data type. 

Select and add multiple MAP Locations in Line Plotter

We continue to bring improvements to the Line Plotter tool, this time by introducing the ability to select multiple MAP locations and add them to the line vertices (node) list. For users familiar with the Point-by-point plotting method in Line Plotter, this will be especially useful for adding a large collection of sequential MAP locations, as previously each point needed to be entered one at a time. 

Document Summary Panel now includes “Last Saved with” Version Info

For users working with MAPublisher projects across different versions of the software, you will be delighted to know that the document summary dialogue now includes information indicating the version of MAPublisher the project was last saved with. This information will help users that frequently share MAPublisher projects with colleagues, allowing them to better establish version standards across collaborative projects. 

Overprint Options in MAP Themes

Previous versions of MAPublisher required a user to navigate the Illustrator attributes panel to configure overprint options for each map element individually and refer to these options separately using MAP Themes. Now with MAPublisher 10.8, an overprint option has been implemented directly within the MAP Themes panel, allowing users to configure overprint settings for fills and strokes within each stylesheet in the MAP Themes tool.

Scale bar, Create Legend, and Elevation Profile tool previews with Background Colours

We have added a small improvement to the scale bar, create legend, and elevation profile tool panel. The preview window for these tools, which allows users to adjust and edit their visual properties before adding them to the map, now has the option to configure a preview background colour. This option is helpful when configuring light, or white-coloured map elements which were previously difficult to see against the default white preview background. 

Support for Raster ECW file formats

New to MAPublisher 10.8, we now include Enhanced Compression Wavelet raster files to our growing lists of supported data formats. Users can now import and work with ECW files directly within the MAPublisher environment of Adobe Illustrator, all while retaining necessary spatial integrity, and without needing to convert your data. 

Engine Improvements and Updated Coordinate system catalogue

We are working continuously to improve the back-end MAPublisher engine to ensure our users can continue their work in an optimized, seamless,  design-focused cartographic environment. Along with improvements to our engine and bug fixes, we have built on our current coordinate system catalogue with updates to the coordinate system and projection library. This means our list of supported projections has grown, with new additions including the Natural Earth and Natural Earth 2 Projections created by Tom Patterson. For a full list of our expanded coordinate systems library please check the projections guide in the Avenza Support center.

MAPublisher 10.8 is immediately available today, free of charge to all current MAPublisher users with active maintenance subscriptions and as an upgrade for non-maintenance users. 

Find out more at the Avenza User Conference!

Want to learn more about MAPublisher? Want to see how industry professionals are using Avenza Products in their organizations? Join us on May 12th, 11am – 5pm (EST) for the first-ever Avenza User Conference. Registration is Free!

The event will feature a full day of speaker presentations from the Mapping and Geospatial communities. The Avenza Product teams will also be on hand to answer questions and give you a sneak peek of upcoming developments to the Avenza Platform. Sign up for free at avenza.com/user-conference

Avenza User Conference 2021

 

Cartographer Chronicles: Steve Spindler

Cartographer Chronicles Steve Spindler Banner

Steve Spindler has cultivated a passion for cartography that has continued for more than 25 years. He operates Steve Spindler Cartography, which develops custom-designed cartographic pieces that can be seen in map products utilized by governments, city planning organizations, and nonprofits from across the country. He also manages wikimapping.com, a public engagement tool that allows city planners to connect and receive input from their community using digital maps. A passionate cartographer at heart, Steve considers map-making both a hobby and career. He strives to share his ideas, techniques, and truly captivating cartographic style with others, either through his previous teaching at Temple University or through his tutorials hosted on his personal website cartographyclass.com

Steve first began designing maps in the early 1990’s while at Temple University for graduate school. Pursuing a Master’s degree in Urban Studies, Steve found that the cartography lab at Temple was his favourite place to be. Before the widespread accessibility of digital maps, Steve recalls spending time at the Philadelphia Library, exploring map catalogues and manually tracing topographic maps before faxing them to his own computer. Later into his graduate studies, Steve joined a mailing list for digital cartography enthusiasts, and this is where he first learned about Avenza and MAPublisher for Adobe Illustrator. He quickly adopted the software into his map-making process, leveraging its suite of cartography tools to easily create maps within a design-focused environment. He continues to use MAPublisher for much of his work, and some examples, such as the Northeastern Pennsylvania trail system map shown below, are even available digitally on the Avenza Map Store for use in the Avenza Maps app.

Steves Spindlers map of NEPA trails

After graduating, Steve combined his passion for cycling with his love of map-making. He started designing maps that promoted bicycle transportation. His list of clients grew, and so too did his reputation in the cartography community. Soon his maps were published and shared over a wide range of platforms across the country.

“It was nice to see my maps posted in public places – in office cubicles, in a Congressional office, being waved around by a US Secretary of Transportation, in a Mac OS X keynote, in the subway, on TV shows, in newspapers – I was using MAPublisher to help create them all.”

After several years of high-paced freelance cartography work, Steve chose to revise his business approach to allow him to be more selective in how he engaged with potential projects. “I created an archetype that I wanted to serve, and put energy into solutions that would help this archetype”. Steve mentioned how he prefers to let a client place a value on what they want, first spending time with the client to conceptualize a problem and then delivering a proposed solution, only sending an invoice once it is appropriate. In his words, this requires a knowledgeable client that really understands what they need.

Steve Spindler's City of Ithaca bike map

Some years later, he returned to Temple University, this time as an instructor. He taught cartography to students within Temple’s Professional Masters of GIS program and stressed the importance of creating a balance between teaching concepts and teaching software. 

“Cartography is really about communicating with an audience, it’s not just about specific software. I think that teaching cartography using a single program (Illustrator with MAPublisher) would allow me to focus more on design concepts and communication. MAPublisher can still access large data sets, and the data is ultimately contained within the Illustrator file.”

His passion for teaching has continued beyond the classroom as well. In the last year, he has taken up a mentorship role for an up-and-coming cartographer. He provides direction and feedback on real-world map projects in what he describes as “learning with purpose”.

Steve Spindlers watercolour style map of rivers

Steve also believes it is important to take learning into one’s own hands. To help him evaluate and improve his mapping processes, he often records his work sessions, carefully documenting and annotating many hours of recorded work such that he can revisit and recall specific mapping steps later on. Many of these sessions are edited down into videos that Steve posts on cartographyclass.com, a personal website for sharing his thoughts, ideas, and techniques on creating maps. He regularly shares maps that he creates for fun in his spare time, drawing inspiration from nature, photography, and artwork to create elegant visually engaging map pieces that exemplify the balance of art and science that is cartography. His recent work has explored the use of graphic styles and MAP Themes to create artistic map pieces that mimic the effect of watercolour paintings. Other posts show his use of the elevation profile tool to create unique maps of recent cycling trips.

Steve Spindler's trail map of Valley forge

Steve Spindler's Valley forge elevation profile

In addition to the many MAPublisher focused tutorials hosted on his personal website, Steve is also an active contributor to the Mapping Class tutorial video series hosted on the Avenza Resource Blog. His contributions demonstrate unique and innovative workflows that leverage a wide range of MAPublisher tools. 

These days Steve continues to take on map-related projects. His approach has allowed him to develop a career that leverages a personal passion and directs it into a successful business. He continues to learn and explore new techniques in cartography in his free time, sharing his thoughts and processes with readers of his blog. After more than 25 years of freelance cartography work, Steve feels his perspective on mapping and business has changed, “Cartography and business are not the same things for me. I want to make maps and don’t need a contract to do this.  It’s just a matter of practicing daily. When the right client comes along, I can help out. I like to be helpful.” 

Steve Spindler's watercolour map of Pennsylvania watershed

Steve Spindler's map of U.S. territories in the Caribbean

Mapping Class: Importing OpenStreetMap data using Overpass Turbo with Steve Spindler

We are back with another exciting addition to our Mapping Class tutorial series. The Mapping Class tutorial series curates demonstrations and workflows created by cartographers and Avenza software users. For this article, we are welcoming back Steve Spindler, a longtime MAPublisher user, and expert cartographer. He has shared with us an excellent tutorial on creating a map from scratch using openly available geographic data from OpenStreetMap, and accessed through Overpass turbo. Steve shows how you can create query statements to filter and export the data, and demonstrates how you can import the data into MAPublisher before using a selection of cartographic styling tools to create a visually appealing map.

Steve has produced a short video walkthrough detailing his map-making process. The Avenza team has produced video notes (below) to help you follow along.

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Importing OpenStreetMap data using Overpass Turbo
by Steve Spindler (video notes by the Avenza team)

Finding and accessing good quality data is often the first challenge for any cartography project. OpenStreetMap (OSM) can be an excellent source of open vector data describing land cover features (roads, parks, rivers, buildings, trails, infrastructure, boundaries). Once collected, cartographers can use OSM data to create highly detailed maps using the MAPublisher plug-in for Adobe Illustrator. Steve will demonstrate his process of collecting raw data from OSM and using it to craft a beautiful map of the Niagara Falls Area. The following video notes summarize Steve’s approach. 

First, you will need to extract some data from the OSM database. Since OSM is a massive repository of geographic data, you’ll need a way to filter through and extract only the data needed for your specific map project. Overpass turbo is a web-based data mining tool that can make querying and exporting OpenStreetMap datasets easy. The tool allows users to apply query statements that filter the OSM database based on attribute and location information. Using the Overpass turbo “Wizard”, a user can enter simple queries (i.e. “water”) and automatically filter and select all features that match the query statement, making it easy to export specific data for your map.

Steve uses a simple query to obtain all map features that are considered “water”. This includes both natural and man-made features

The tool allows the user to export the filtered datasets into geoJSON format, an open standard format for storing and representing geographic data and attributes.

The geoJSON datasets collected from Overpass turbo can then be imported directly into MAPublisher for styling into a finished map. Use the Import tool to load the data onto an Adobe Illustrator artboard. From here, you can open the MAP View editor to adjust the scale and projection information for each map data layer. For this map, reproject the data into State Plane NAD 83 to preserve an accurate spatial scale. Set the scale option to 25,000 and customize the position of the map data on the artboard.

If needed, use the Vector Crop tool to trim the map data down to a specific area of interest, and simplify the layer to create smoother lines by removing excess vertices.

Back in Overpass turbo, you can build more specific query statements to extract individual features from larger data categories. Use the statement: name = “Niagara Falls”, to select polygon features specific to the waterfalls in that area.

Import this new data into MAPublisher, and drag and drop it into the same MAP View as the water layer. The data will be automatically scaled and projected to align with the water layer. Apply a graphic style fill for the water bodies and waterfall area.

Next, we can go back to Overpass Turbo and extract road and highway data. You can build out more complex query statements using basic database operators (i.e. and/or). For longer, complex query statements it helps to create saved queries that you can re-use. This map uses a saved query statement called “selected roads with residential” to extract line features covering most road types:

(highway=primary or highway=secondary or highway=cycleway or highway=path or
 highway=motorway or highway=trunk or highway=tertiary or
 highway=neighborhood or highway=footway or highway=service)

 

Import the roads data into the same MAP View as the other datasets. If you look at the MAP attributes you can see the road data is split into several different types. Steve use’s MAP Themes to create rules-based stylesheets to visualize the different road lines based on their road-type attributes. Steve designed a rule-set that made minor roads more subtle in appearance, while major roads and highways became more prominent. He also used colour to distinguish between pedestrian and vehicle network links.

Repeat this process with a building footprint layer and crop all layers in the final map to the artboard extent. The finished product is shown below (top). Some final touch-ups in photo editing software can be used to create a more stylized appearance (bottom).

Exported map from Illustrator

Stylized version modified with Photo editing software

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About the Author

Steve Spindler has been designing compelling cartographic pieces for over 20 years. His company, Steve Spindler Cartography, has developed map products for governments, city planning organizations, and non-profits from across the country. He also manages wikimapping.com, a public engagement tool that allows city planners to connect and receive input from their community using maps. To learn more about Steve Spindler’s spectacular cartography work, visit his personal website. To view Steve’s other mapping demonstrations, visit cartographyclass.com

Exploring Shaded Relief Techniques in Geographic Imager and Adobe Photoshop 3D

In the world of map-making, shaded relief refers to a visual technique that gives the illusion of three-dimensional terrain on an otherwise flat map. Cartographers use shaded relief to draw the viewer’s eye to prominent topographic features such as mountains, valleys and canyons. Using imaginary illumination sources and digital elevation data to cast directional light on a map, the cartographer can give the illusion of depth, casting shadows into valleys and lowlands, and highlighting ridgelines and peaks as if they are bathed in sunlight. 

Historically, this technique was achieved entirely by hand and was extremely labour intensive. Now, with modern graphical software and digital mapping technologies, relief shading can be accomplished right on the desktop. 

To demonstrate this, we are going to use the powerful spatial imagery tools and graphical design capabilities of the Geographic Imager plug-in for Adobe Photoshop to explore relief shading using a really interesting 19th-century historical map. Here is a sneak peek to show what the final product will look like.

Let’s start with our original map. We have taken an absolutely stunning United States Geological Survey Map of the world-renowned Grand Teton National Park in Wyoming. Originally drafted by hand in the year 1899, the map features beautifully drawn contour lines and colour work showing the mountainous topography of the park and its surrounding area. The map, and thousands of others like it, are available in full-resolution on the USGS Historical Map Catalogue. Our goal will be to bring the map to life using three-dimensional (3D) relief shading techniques available with Geographic Imager and Adobe Photoshop.

First, we need to bring in some elevation data. Elevation data is critical for creating shaded relief, as it determines how light and shadows will behave in different parts of the map. We can obtain high-resolution digital elevation models (DEM) for our region from the USGS EarthExplorer.

Those of your familiar with spatial imagery data and DEMs will know that our first challenge will be working with tiled (discontinuous) imagery data products. In its raw form, DEMs are often stored as identically sized tiles, with each tile representing a specific indexed region of the earth’s surface. It is an unfortunate reality that many times the spatial extent of each DEM tile rarely matches the exact extent of the area you are interested in mapping. As a result, map-makers and spatial imagery specialists need to implement tools to import, merge, and crop these tiles to a more useful format and size.

 

In our case, the elevation data for the area shown by the original 1899 topo-map is now represented by four separate DEM tiles, with roughly one tile for each quadrant of the map. To handle this problem, we can use the powerful Advanced Import tool within the Geographic Imager toolbar. The tool is a one-stop solution to easily import and mosaic our DEM datasets directly into Photoshop, all while retaining the spatial awareness we need to georeference or transform our data layers.

By combining each of the four raw DEM datasets, the tool will mosaic the tiles into a single merged, continuous, and geographically accurate elevation layer covering the entire extent of the map. Even more impressive is that Geographic Imager can use the spatial referencing information in the data to automatically align and overlay the original 1899 topo map onto the elevation layer, removing the need to perform manual georeferencing. (If the imagery data you are using does not have spatial referencing information already, don’t worry – our support team has crafted some excellent, easy to follow georeferencing in Geographic Imager tutorials).

With our DEM data imported into Photoshop, we can start to explore different techniques for creating shaded relief. We will start by using the Terrain Shader tool located on the Geographic Imager toolbar. Terrain shader is a one-click technique to create simple shaded relief instantly. It allows you to configure the angle and intensity of the simulated illumination source to control the prominence and direction of casted shadows. Additionally, you can apply customized colour gradients to easily produce stylized elevation maps or apply hypsometric tints. 

In many situations, the Terrain Shader tool is an all-in-one, quick and easy way to create shaded relief. The output of the tool makes it easy to distinguish topographic features and can be used to quickly produce a shaded-relief backdrop for your map.

One of the greatest benefits of using Geographic Imager is that we retain all the imagery manipulation and spatial referencing capabilities of a GIS while still having access to the massive inventory of powerful image editing tools provided by Photoshop. This allows us to take our shaded relief technique up a notch by incorporating the advanced 3D rendering and lighting tools of Photoshop 3D to truly bring our 1899 Grand Teton survey map to life.

To start, we first need to trim the DEM layer down to our specific area of interest. We used the GeoCrop tool to crop our mosaiced DEM layer down to the exact extent of our topo map (it is important that both layers are the exact same extent – you’ll see why later). Next, we can open up the Photoshop 3D toolbar, and convert our flat DEM into an extruded 3D “Depth Map”. 

To enhance the shaded relief effect, we need to apply a vertical exaggeration to the model. In 3D mode, we can drag the z-axis scaling slider to exaggerate the prominence of the topographical features in our map. By creating vertical exaggeration, we can create more pronounced shaded relief, as canyons and lowlands will capture shadows more effectively.

In 3D mode, we can use the mouse cursor to pan and rotate our “camera” to get different perspectives of our elevation model. This can be useful for creating orthographic or oblique perspective map styles.

Now that we have a configured 3D model of our map area, we can apply our simulated illumination source. Much like the Terrain Shader tool, we can control the illumination intensity and angle of approach. Since we are working in a 3D environment however, we now have three different axes that control where our light is coming from. Notice how the angle is important for affecting the length and intensity of shadows in our relief map. This includes the prominent mountain silhouettes that can be created when we set the light source to approach from a low angle on the horizon.

Next, we can configure the surface properties and apply a texture overlay to our 3D model. Experimenting with these settings changes how light interacts with the surface and can be refined to produce different relief shading effects. Using these surface properties, we can also drape the original 1899 Topo map onto our surface model (this is why it is important for both the DEM and the topo-map to share the exact same extent, otherwise the topo map will be distorted once it is draped over the surface).

Fine-tuning the map at this stage can take some time and experimentation. We can add some additional light sources with different casting angles and intensity to help create a multi-directional hillshade effect. We can also configure the light settings to produce softer, less pronounced shadows that look more realistic. After spending some time adjusting the lighting and surface settings, as well as configuring the camera view angle,  we can hit the “render” button and sit back while it creates a full-resolution rendering of our 3D model (this part can be very computationally intensive, and may require a high-performance machine to process efficiently).

Since we are still creating our map entirely within the Photoshop environment, we can immediately fine-tune the brightness, contrast, and colour of our map before exporting the final product. 

You can see some renders of the final map below. Thanks to the powerful spatial import and manipulation tools of Geographic Imager, and the ability to work entirely within the advanced image editing environment of Photoshop, we were able to create a dramatic 3D shaded relief effect that brings our 1899 USGS Grand Teton Survey map to life.

 

Mapping Class: Creating Orthographic Locator Maps with Steve Spindler

 

We are proud to announce the start of a new video-focused blog series called Mapping Class. This blog series will curate tutorials and workflows created by cartographers and Avenza software users from around the world. We begin with a mapping workflow from Steve Spindler, a longtime MAPublisher user, and expert cartographer. He has shared with us his own take on creating Orthographic locator maps by applying some neat design tricks and utilizing MAPublisher’s powerful projection tools to create a simple, yet effective map.

Steve has produced a short video walkthrough demonstrating his process and has summarized the technique in the written article below.

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Creating Orthographic Locator Maps
by Steve Spindler

An orthographic map is like a view from space. It’s useful for directing attention to someplace on the planet.
This video shows how an orthographic locator map is made in Illustrator using MAPublisher. The template illustrator file I use in the video is here.

 

We’ll start off by locating Paris on the map using Find Places. We need the latitude and longitude to create two projections.
Next, get the Latitude and Longitude from Map Attributes. You’ll have to turn MapX and MapY fields on. MapX is longitude. MapY is Latitude.

In Map Views, click on the projection, (ne_110m_land), and then select “Perform Coordinate System Projection”.
Select Projected Coordinate Systems and search for Azimuthal Equal Area. Duplicate, rename and set the definitions for the central meridian and the latitude of origin. There might be more than one. Pick one.

Select Projected Coordinate Systems and search for Orthographic. Duplicate, rename and set the definitions for the central meridian and the latitude of origin. There might be more than one. Pick one.

Select the new azimuthal projection, the one you created, and click OK to use it.
We use the azimuthal projection to crop data before creating the orthographic projection. Otherwise, there will be overlapping imagery. Next, create a buffer for the Paris point that is 10002.5 km around the point. This will be located on a new layer.

Use the path utilities tool to convert the bezier circle into polylines. Then reproject the map to the orthographic projection. Once completed, crop again with your circular buffer layer and delete the water layer. It will be replaced with a gradient.

Finally, add a radial gradient to the circular buffer layer and move the circle below the other layers.
Now you have an orthographic locator map that you can continue to style and label for your purposes.

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About the Author

Steve Spindler has been designing compelling cartographic pieces for over 20 years. His company, Steve Spindler Cartography, has developed map products for governments, city planning organizations, and non-profits from across the country. He also manages wikimapping.com, a public engagement tool that allows city-planners to connect and receive input from their community using maps. To learn more about Steve Spindler’s spectacular cartography work, visit his personal website. To see the original tutorial article, or view Steve’s other mapping demonstrations, visit cartographyclass.com

Labelling Made Easy with MAPublisher Label Tools and the MAPublisher LabelPro Add-on

Maps are a fusion of art and science, presenting complex geographical data in a way that is both visually appealing and informative. Cartographers use maps to convey a story, drawing attention to important information using carefully crafted design choices and curated map elements that engage the viewer. Although cartographers employ a variety of specialised techniques to present this meaningful information on a map, one of the simplest, yet most effective methods is through map labels.

Quite simply, map labels are symbols or texts strategically placed at specific locations on a map to identify important geographical features, locations, or areas of interest. To a map viewer, labels are a quick and easy way to know exactly what is shown on a map. To a map maker, however, the task of creating labels is not often quick and generally isn’t easy. This is especially true when there are a large number of labels that need to be placed, or when labels need to follow complex paths such as roadways, rivers, or trails. Map-makers must also consider the issue of label crowding and collisions, ensuring labels are not overlapping each other, covering or distracting from other important features of the map. Combined, these challenges can be a significant time-sink in the map-making process, requiring both time and effort on the part of the cartographer.

Labelling doesn’t have to be difficult though, and in this blog, we will show you how built-in MAPublisher label tools and the MAPublisher LabelPro add-on can make labelling simple.

Let’s start with our unlabelled map. We have taken a collection of openly available geo-data depicting the small mountain town of Ouray, Colorado (home of National Geographic Cartographer and last month’s Avenza Cartographer Chronicles feature, Mike Boruta). We have stylized the data to show rivers, parks, streets and trails all throughout the town, but we feel labels would help a user to better understand the information being shown. We are going to approach the labelling process in a few different ways.

Manual Label Placement with the MAP Tagger Tool

For small labelling tasks, where a map maker might need to place only a handful of precisely located labels, the MAP Tagger tool is perfect for the job. MAP Tagger allows us to configure a basic set of options that control the character style of our label as well as general label placement rules. From there, we can simply click on a map feature and have the tool automatically detect and apply a label from attribute information contained in the selected layer. As we have direct control over the placement of every individual label, we can be extremely precise in choosing label placements that work for our map. Best of all, the tool automatically detects and applies text pathing for line features, meaning text labels can follow the form of any road, river, trail in your map!

When working with a small number of map features, the MAP Tagger tool is often just what you need to add well-placed labels to your map. For larger labelling tasks, such as our Ouray map, where there are many layers and several different features to be labelled, a manual approach such as this would be very time-consuming. Instead, we need to implement a more automated, batch labelling technique to speed-up the map-making process.

Batch label placement with the Label Features Tool

When you are working with several map layers, or have a large number of geographic features that each need to be labelled, it can be more efficient to create your labels all at once. The Label Features tool comes built-in with MAPublisher, and can handle batch labelling of map features with only a few clicks. The tool is designed similarly to MAP tagger, and automatically populates the map with precise, path-aligned labels, while offering the flexibility to define unique character styles for each map layer.

Taking a look at the tool, we were able to quickly generate over a hundred labels, for every road, trail, river, and park layer in our Ouray map. By nature, the tool will present you with a large number of labels for each feature, allowing us to examine and choose the labels we wish to retain and remove those that we don’t. With a little bit of clean-up to remove those extra or unwanted labels (see the animation below), we can already see our labelled map is coming together!

The Label Features tool is great for getting a head start on large labelling projects, but you might notice that the output of the labelling tool still requires some manual intervention to clean-up the output. For example, notice how “4th Street” and “5th Street” labels are repeated several times over the length of the street, with some labels colliding with others to create an overlap. This is a common problem in many labelling tasks and is due to the way our input data is structured. The dataset we obtained presents each road in the town as a line, but rather than present each road as a single continuous feature, it breaks up each street into several linked segments. Although this can be corrected with manual editing, it can still be time-consuming when working with a high number of labelled features. To avoid this, we need a method of achieving smarter batch label placement that can detect and reduce instances of label collision or redundancy. 

Fortunately, we have one last trick up our sleeves that makes even the most complex labelling tasks a breeze. We can use MAPublisher LabelPro for collision-free, rules-based label placement.

Better Labelling with MAPublisher LabelPro

The MAPublisher LabelPro add-on allows the user to customize a wide variety of enhanced labelling options that result in smarter, more efficient label placement. LabelPro comes with a powerful purpose-built labelling engine that handles not only label placement, styling, and pathing, but also optimizes the grouping, fitting, and collision avoidance of labels to reduce crowding, avoid label overlap, and eliminate label redundancies. 

Remember those overlapping labels we ran into with the Ouray map? With LabelPro we can set rules that treat street segments as contiguous features in a single line, meaning the labelling engine will efficiently place labels that are representative of the entire street, rather than just for each segment. The intelligent collision and fitting rules mean we can also prevent labels from overlapping each other or crowding the map, saving us time and effort by letting the tool handle precise label placement with minimal clean-up. By setting layer priorities designating certain layers as obstacles we can make sure our important labels are unobstructed, and other labels do not cross other features in a way that would confuse the map viewer. 

With LabelPro, we can also create expressions to apply conditional character styles and rules based on attribute values in the data. In our map, we created label filters for “Residential Roads”, “Service Roads”, and “Alleyways”, allowing us to label (or not label) certain road types differently, even though they are all contained in the same “secondary roads” map layer. These are only a few examples of the robust collection of configurable rules and smart labelling options available to tackle even the most complex labelling tasks.

With our rules set up and all character styles defined, in very short order we could automatically generate labels for all rivers, roads, highways, parks and trails in our Ouray map. The smart placement with LabelPro means we spend less time manually correcting label placement and allows us to produce maps more efficiently and easily. If you want to read a more in-depth, tutorial style article that shows you the exact steps we used to easily create our simple map of Ouray, check out this great workflow article produced by our support team – Here!

 

Data sources: All datasets were obtained from OpenStreetMap and the Ouray County Open Data portal.

What’s New in Geographic Imager 6.3

Geographic Imager 6.3 - Avenza Systems

What’s New? Geographic Imager 6.3

We are happy to announce that Geographic Imager 6.3 is now available. This release brings continued improvements to compatibility with Adobe Photoshop 2021, and now offers full compatibility with the latest Mac OS 11 Big Sur release. We are also excited to introduce a brand new and easy way to access floating licenses directly from the cloud!

Here is what you can expect with the latest Geographic Imager 6.3 release:

macOS 11 Big Sur Compatibility

Users will be delighted to see that Geographic Imager 6.3 is now fully compatible with macOS 11 Big Sur. This means new and existing users can transition to the latest macOS without any interruption in their Geographic Imager capabilities.

Cloud Floating Licenses: A Better Way to Manage and Checkout Licenses

We have worked hard to deliver a newly improved floating license management system as part of Geographic Imager 6.3. This new license management system greatly improves on previous versions and allows users and administrators within an organization to efficiently and seamlessly access floating licenses directly from the cloud. The new licensing system is built on the RLM Cloud platform and means floating licenses can be implemented without the challenges of setting up, deploying, and managing a local server. Contact our Sales team to learn how you can set up your cloud floating licensing.

See the new cloud licensing options by accessing the license management panel within Geographic Imager 6.3

UXP Implementation for Chinese Versions of Geographic Imager 6.3

The Chinese version of Geographic Imager 6.3 now implements Adobe’s new powerful Unified Extensibility Platform. Which provides user interface improvements and flexibility to develop new tools in the future.

Geographic Imager Available Now

All active maintenance subscribers can upgrade to Geographic Imager 6.3 today for free. Users without an active maintenance subscription or on a previous Geographic Imager version can still upgrade.

 

Cartographer Chronicles: Mike Boruta

Colorado-based cartographer Mike Boruta knows a thing or two about making maps. In fact, this award-winning cartographer has been designing spectacular maps and trail guides for more than a decade. His work can be seen in the National Geographic Trails Illustrated series, in mountain biking guides released by Fixed Pin Publishing, fly-fishing reference maps curated by Stonefly Press, or most recently in the hiking trails guide for the mountainous town of Ouray, Colorado, where he currently lives. Always fascinated with viewing the world from above, Boruta has dedicated his career to capturing the beauty of mountain landscapes through well-designed maps, and captivating cartographic styles.

Following several years of post-university travel, Boruta found himself living in the tiny tourist-driven town of Ouray. Seeking more opportunities for career advancement, he moved to Arcata, located on the north-western coast of California. He considered returning to school to pursue a computer science degree but realized the subject matter did not entirely excite him. That was when a coworker of his first told him about the excellent Geography and Cartography programs at Humboldt State University nearby. He learned about a subject-stream called Geographic Information Systems (GIS), and although having never heard of GIS before, the concept immediately interested him. His years of travel had given him quite an appreciation for maps, and the GIS and Cartography programs at HSU would allow him to combine this appreciation with an interest in computer technology. 

He quickly developed a passion for cartography and decided to pursue graduate schooling in Athens (OH), where he studied under established cartographer Dr. Margaret Pearce. Forever drawn back to the rugged mountain landscapes where he had lived in the past, Boruta found a particular interest in studying relief representation in cartography, the technique used to create the illusion of 3D-terrain on a 2D map. He fell in love with the work of renowned Austrian cartographer Heinrich Berann, whose painterly style “birdseye” mountain maps continue to inspire him today.

 “Anytime I had to choose a place to use for projects in my cartography or GIS classes I found myself pulled back West, usually to Ouray, Colorado. I grew increasingly interested in mapping mountainous places”

In 2009, Mike Boruta first began using Avenza MAPublisher in his work. He had recently won the Arthur Robinson Award for Best Printed Map, part of the CaGIS Map Design Competition, for his entry “The Million Dollar Highway”, which explored a scenic stretch of road connecting Ouray to Silverton, Colorado. The award included a student license for Avenza MAPublisher software and allowed him to seamlessly integrate its suite of cartography tools into his already Adobe Illustrator-heavy mapping workflows. Shortly after, he began working with the publishing company Fixed Pin to create a mountain-biking guidebook for the entire state of Colorado. The project was extensive and would require the creation of several complete and detailed map sets, each describing a unique part of the state. Recognizing the vast scale of work ahead of him, Boruta sought out mapping solutions that would help him enhance the efficiency of his cartographic workflow. 

 “This was the first time I really got to work with MAPublisher, and it was a joy to learn and to use. I immediately found out how useful it was to set up all my graphic styles and character styles since I was having to create 118 maps with the same look and feel.” 

As Boruta found himself less and less dependent on dedicated GIS software, he opted to focus on completing his projects from start to finish directly in Adobe Illustrator using the many data import and manipulation tools of MAPublisher. This environment, he felt, “lent itself to so much more creativity”. Integrating these mapping tools into his workflow also meant he did not have to continuously replicate shared design features between each map, instead organizing and stylizing his data into a series of 15 “master maps” and using the MAPublisher Vector Crop tool to create separate individual maps for specific regions. 

By 2011, Boruta had begun contract work with National Geographic to help produce maps for the Trails Illustrated line of topographic map products. Incredibly, in 2013 things aligned in such a way that he was able to once again move back to Ouray, the mountain-town he had fallen in love with many years earlier. There, he began meeting with the volunteer-run Ouray Trail Group (OTG) to discuss how he could help them improve their existing trail map, which is a major source of funding for the non-profit group. The first project was getting their map into the Avenza Map Store so that hikers could use the map on their phones and tablets. After that, it was clear that the newly created and extremely popular hiking route called the “Ouray Perimeter Trail” needed its own high-quality map. 

Finding some free time in the summer of 2020, Boruta dedicated himself to fully revising the Ouray Trail Group’s main trail map and also creating an all-new map for the Ouray Perimeter Trail. His vision included a highly-detailed, topographic map showing the entirety of the county’s vast trail system. He set to work collecting datasets and planning the map production, first using dedicated GIS software, before reverting to a more design-focused workflow in Illustrator. 

“I quickly moved things into Illustrator and MAPublisher and never looked back. There are certain tasks I’ve grown used to doing in MAPublisher that I just find so much faster and simpler to do than if I were in ArcGIS or QGIS”. 

As is common with many mapping workflows, working from mixed data sources can be a constant challenge for many cartographers, especially when data from different public agencies do not share the same projection and coordinate systems. Boruta found this to be a common occurrence while working on his OTG trail maps and highlighted his fondness for being able to drag and drop data into different Map Views directly within Illustrator. In this way, he allowed the software to automatically reproject datasets to a shared projection without having to open up any sort of tool or repeatedly configure data parameters. 

Boruta also emphasized how powerful the Vector Crop tools and “spatial filter on import” capabilities were, allowing him to quickly specify or delineate a region of interest and immediately crop all data layers to that area, retaining topology and attribute integrity, all within the Illustrator environment. When handling the reference maps used to guide the creation of the OTG trail maps, he implemented the Georeferencing tools in the Avenza Geographic Imager plug-in for Adobe Photoshop to efficiently georeference and georectify unprojected reference map images before integrating them back into his Illustrator project. After a large chunk of the summer working on the map, he delivered the finished trail map. On completing the project, he noted “It was one of the most satisfying projects I’ve ever worked on since I was literally mapping my own beloved backyard.”

The completed Hiking Trails of Ouray County and the Uncompahgre Wilderness map is available in printed form, and users can also purchase digital forms of that map and the new Ouray Perimeter Trail Map in the Avenza Map Store. The digital maps are fully geo-enabled and support offline use for navigation and GPS-location on mobile devices using the Avenza Maps app. 

Mike Boruta still lives in his beloved town of Ouray. He spends his free time enjoying the trails and mountains which he has helped to map. He continues his work for National Geographic and has branched out his interests to include drone photography and videography. He operates the website OuraybyFlight.com, which showcases some of his spectacular drone photography work. His dream is to combine these dramatic landscape panoramas with overlaid symbols and text to create those iconic “birdseye” mountain maps that inspired him years ago. 

“I envision something that would hopefully be more aesthetically pleasing, something that aims to capture the soul of these San Juan Mountains while also illustrating the geography. And just maybe it might also be something pretty enough to hang on the wall.”

People, Parks, and the Pandemic: Designing Infographics with Avenza MAPublisher

Here at Avenza, we love finding interesting data and using it to create engaging maps. In this blog, we show you how we used the powerful spatial data manipulation and cartographic styling tools found in MAPublisher for Adobe Illustrator to create an infographic exploring how park visitor patterns changed in the United States in 2020 using a truly interesting openly available dataset.

Recently, Google made its COVID-19 Community Mobility Reports public. These reports use aggregated anonymous mobile GPS data to explore how global human activity patterns in specific location categories (parks, retail, transit, residential, workplaces, and grocery) changed as a result of the ongoing pandemic. The U.S. dataset is massive, containing estimates of daily visitor activity for each location category in every county. Each data point provides an estimate of that day’s percentage increase or decrease in visitors relative to a pre-pandemic baseline period, meaning the data reflects how pandemic restrictions on that day may have impacted park space usage in that specific location.  Below shows a sample of the raw dataset, listing five data points covering Feb 15-19th activity patterns in a single Colorado county.

We downloaded the complete dataset (February to November 2020) from Google’s mobility reports data portal. The dataset contains nearly 900,000 records of all 3,143 counties in the U.S.  We wanted our infographic to focus on the parks category, which includes every national, state, and local park, as well as public forests, campgrounds, beaches, marinas, dog parks, and gardens. Using the open-source statistical programming language R, we were able to aggregate the dataset into a more manageable size. Below, you can see how some basic filtering of these “cleaned” datasets already shows evidence of some interesting patterns, but we felt that mapping the dataset would be much more engaging.

Maps are powerful story-telling tools, and we felt this data would be more interesting if you could see how park visitor patterns changed not only with time but also with geography. To make working with map data in Adobe Illustrator easier, we used the MAPublisher Import tool to load in a shapefile of U.S. state boundaries. The tool allows us to treat our dataset as a fully functional graphic element in Illustrator while still retaining all geographic properties integral to spatial data (attributes, topology, and coordinate systems). 

To visualize the data as a map, we needed a way to associate each record in our tabular dataset to a specific location (in this case, a State). To do this, we used the Join tool, which takes our “cleaned” tabular parks dataset (stored as a CSV file), and links it to our mapped states shapefile using the shared State names column. 

We started to think about how to design the layout of the infographic (this is where having a mapping environment in Illustrator really shines). We wanted it to consist of three main parts: a large labelled map showing the average change in park visits over the entire year; a vertical series of maps showing how park visits varied month to month; and a handful of pop-out maps with insets highlighting specific points in the year and specific regions of the country.

We chose to stylize the data into thematic maps, which use colour to represent specific values in the data at different locations. Instead of tediously configuring individual colour fills, we used MAP Themes to establish a rules-based stylesheet that applies a colour automatically to each State based on the monthly park visitor columns stored in the map layer’s attribute table. We chose a “thematic map” colour group from the included ColorBrewer 2 swatch library to best show positive and negative changes in park usage. 

Next, we populated our main map with labels showing the percentage change in park use for each state. As many cartographers know, placing and configuring labels can be a significant time sink. Fortunately, we could use the MAPublisher LabelPro add-on to provide collision-free, rules-based label placement. We could configure the label rules to automatically handle collisions, alignment, and placement of labels for each state. Using the leader lines option in the LabelPro Rules panel, we were even able to create offset labels that prevent crowding the map.

Finally, we decided that to create some insets to highlight specific parts of the country.  From a “master” map,  we used the Crop to Shape tool to crop the map data to our desired inset extents. Using Crop to Shape is quick, and also retains the styling elements (colours, labels, strokes), topology, and attribute integrity of the cropped map layers. 

With most of the maps completed, all that was left was to populate the infographic with text and graphics. Using the MAPublisher layout tools, we added a functional North Arrow and customized the automatically generated legend layer to suit our infographic’s design. Lastly, we used an Illustrator graph tool to create a vertical line graph of park activity along the left side of the infographic.

Presenting the dataset in this way makes it much easier to extract insights and craft a story from the data. Some patterns are immediately noticeable, such as the overall increase in park space usage that is observed for most of the US during the pandemic period. This isn’t exactly unexpected, as parks were one of the most accessible forms of leisure activity and recreation amid widespread social distancing and retail/entertainment closures. We also see how state-specific factors may have affected park usage in different regions of the country at different times. Some states, such as South Dakota, had eased restrictions on out-of-state visitors to their park systems, resulting in a spring season surge in park usage earlier than their neighbours. Conversely, states which typically draw a high proportion of international tourists, such as California, Hawaii, and Florida, saw more of a decrease in average park usage as a result of global air travel decline. These patterns and stories are one of many that can be identified, providing compelling examples of why maps are such powerful tools for visualizing data.

The beauty of working with MAPublisher to create this map-heavy infographic is that we were able to implement the powerful mapping and data manipulation tools of a dedicated GIS while seamlessly integrating the advanced art and design tools offered by the Adobe Illustrator graphical environment. Together, these tools turned what would have been a complex workflow of importing and exporting data between different software, and allowed us to create the entire infographic in a single mapping and design-focused fully integrated workspace.

See the Full infographic below:

 

References:

Data – https://www.google.com/covid19/mobility/
Pandemic Timeline – https://www.ajmc.com/view/a-timeline-of-covid19-developments-in-2020
Raw Park Visitor Stats – https://irma.nps.gov/STATS/
Camping Stats – https://koa.com/north-american-camping-report/

News Reports and Park/State-Specific Articles

“Camping in Tennessee’s State Parks Increase during Pandemic.” Wreg, AP, 9 Dec. 2020, wreg.com/news/camping-in-tennessees-state-parks-increase-during-pandemic.

Marcus Schneck. “Camping at Pennsylvania State Parks ‘Going through the Roof’ as Coronavirus Restrictions Ease.” Pennlive, 1 July 2020, www.pennlive.com/coronavirus/2020/07/camping-at-pennsylvania-state-parks-going-through-the-roof-as-coronavirus-restrictions-ease.html.

Anderson, Patrick. “National Parks in South Dakota Remain Open as Others Close across the Country.” Argus Leader, 17 Apr. 2020, eu.argusleader.com/story/news/business-journal/2020/04/17/coronavirus-south-dakota-national-parks-remain-open-others-close/2981675001.

Henderson, Catherine. “Having a Hard Time Finding a Campsite in Colorado This Summer? You’re Not Alone.” The Know Outdoors, 15 July 2020, theknow.denverpost.com/2020/07/15/colorado-camping-covid-national-parks-state-parks/241704.

Wiley, Melissa. “What the 10 Most Visited National Parks in the US Have Said about Their Plans to Reopen, from Opening in Phases to Implementing Social Distancing Guidelines.” Business Insider, 21 May 2020, www.businessinsider.nl/are-national-parks-open-covid-19-coronavirus-united-states-nps-2020-5?international=true&r=US.