Welcome back to this month’s edition of Mapping Class. The Mapping Class tutorial series curates video tutorials and workflows created by experienced cartographers and Avenza software users. With us today is Steve Spindler, a MAPublisher expert, and professional cartographer. Steve is back with a quick demo showing how he uses MAPublisher path utility tools and a custom Adobe script produced by Nathaniel Kelso to create unique mile marker symbols. The Avenza team has produced video notes adapted from the original article found on Steve’s personal blog.
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Create Distance Marker Symbols in MAPublisher using Scripts by Steve Spindler (Notes adapted from the original)
MAPublisher used within Adobe Illustrator enables us to create mile markers or other points along a line. I’m using this tool while working on the Genesee Valley Greenway map, and this video walks through the process.
Not shown in the video is how I set the direction of the line. Reversing the line direction is done using the MAPublisher Flip Lines tool. I just didn’t need to do this.
To set the mile marker preferences, we can use the Add Path Intervals in the Path Utilities tool.
This is pretty good, but if you want to customize the circle or square, it helps to convert the polygon objects into symbols.
Find and Replace Symbols Script
The script is called “Find and Replace Graphics” and can be found on Nathaniel Kelso’s website here. Save the script into the appropriate Adobe Illustrator Scripts folder. If you prefer, you can save the script elsewhere and navigate to the script manually using “File>Script>Other Script…”
Note: Save the script with the “.js” extension
To use it, I select all of the current objects that I want to replace and make sure they are on the same layer. I lock other layers. Then I add place a symbol on the same layer (ensure the symbol you want to use is the top-most object in the layer).
With the objects selected, run the script here.
All of the selected objects will be changed to the top-most object, which I set to be a symbol.
Select only the polygons, not the text. Otherwise, you will get this error.
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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
For Day 12 of the #30DayMapChallenge, the challenge topic is population. Our Teammate Chelsey from Marketing, a true beginner when it comes to map-making, steps up to the plate. With lots of help from cartography and gis experts, her focus was on finding simple population data and doing basic data manipulations to learn how to use Avenza MAPublisher.
Finding Data
This was one of the most difficult parts for a completely new map maker. Having absolutely no idea where to start Chelsey turned to her team. Here are a few of the tips she learned on how to source data.
Have an idea
Chelsey loves Australia and has always wanted to visit.
Google is your best friend
We started searching for data by searching broad terms “Population Data Australia”.
Open Street Maps
Sourcing Census Data is a good place to start
This data is often easier to access and is verified.
Break the data down
Data can be overwhelming, we decided to focus on Tasmania, a province of Australia.
Play around with data
Working with digital data is non destructive and doesn’t take too long. Don’t be afriad to try different data sets or play around with things.
Software
Having access to incredible map-making software like MAPublisher and Geographic Imager really made this next part simple.
With MAPublisher you’re able to open and manipulate spatially referenced data… RIGHT IN ADOBE ILLUSTRATOR! Chelsey was impressed with how easy it really was to open the data sets, set projections, and even create a legend in less than five clicks!
“It’s easy to get intimidated by all the rows and rows of data. MAPublisher put it all in the Adobe environment I’m already familier with, that helped make it all easier to understand and work with.”
Chelsey Harasym – Avenza Marketing
Fun Fact: Not all maps or infographics need to be serious, check out this great map about Sharknados!
Map Insets
Sometimes, like in our example shown above, you really need to zoom in to see the detail of a map. This is often down using Map Insets. Chelsey used a map inset to showcase the more populated areas of Tasmania. If you’re interested in learning how to create map insets with MAPublisher, learn how here.
Ready to Try?
Download your own free trial of either MAPublisher (Adobe Illustrator) or Geographic Imager (Adobe Photoshop) today to start making your very own beginner maps!
Toronto, ON, August 31, 2022 – Avenza Systems Inc., producers of the Avenza Maps® app for mobile devices and geospatial extensions for Adobe Creative Cloud®, including Geographic Imager® for Adobe Photoshop®, is pleased to announce the release of MAPublisher® 11.0 for Adobe Illustrator®. This version offers full compatibility with the Apple Silicon processor, enhancements to the MAP Attributes panel, a revamped welcome screen, the ability to import OpenStreetMap file formats, a brand new set of MAP Erase tools, and several performance improvements and bug fixes.
MAPublisher cartography software seamlessly integrates more than seventy GIS mapping tools into Adobe Illustrator to help you create beautiful maps from geospatial data. Import industry-standard GIS data formats and make crisp, clean maps with all attributes and georeferencing intact using the Adobe Illustrator design environment.
New major features of the MAPublisher 11.0 extension for Adobe Illustrator include:
Apple Silicon Processor compatibility
MAP Attributes Panel enhancements: Users no longer need to select all attributes for them to appear by default in the features list, with show all/show only selected features toggle buttons
Welcome Screen revamp: Improved discoverability for users with more content to aid in getting started or inspired with MAPublisher
OpenStreetMap file format support: Import OpenStreetMap OSM and PBF file formats
MAP Erase tools: Quickly remove sensitive or unwanted data from maps with the MAP Vector Erase or MAP Erase by Shape tools
Users require a valid Adobe Creative Cloud subscription and a compatible operating system to utilize the improvements and enhancements offered in MAPublisher 11.0. For questions and information on how compatibility requirements may affect your organization, please contact our Support Centre.
MAPublisher 11.0 is immediately available free of charge to all current MAPublisher users with active maintenance and as an upgrade for non-maintenance users starting at US$649. New licenses are available from US$1499. MAPublisher FME-Auto and MAPublisher LabelPro are also available as add-ons starting at US$499. Academic, floating, and volume licenses are also available. Prices include one year of full maintenance. Read more about MAPublisher 11.0 in the release blog, or visit www.avenza.com/mapublisher for more details.
More about Avenza Systems Inc.
Avenza Systems Inc. is an award-winning, privately held corporation that provides cartographers and GIS professionals with powerful software tools to make better maps. Avenza also offers the mobile Avenza Maps app to sell, purchase, distribute, and use maps on iOS and Android devices. For further information contact: 416-487-5116 – info@avenza.com – www.avenza.com
Toronto, ON, December 14, 2021 – Avenza Systems Inc., producers of the Avenza Maps® app for mobile devices and geospatial extensions for Adobe® Creative Cloud®, including MAPublisher® for Adobe Illustrator®, is pleased to announce the release of Geographic Imager® 6.5 for Adobe Photoshop®. This latest release offers full compatibility with the latest release of Adobe Photoshop 2022 (23.0.x), compatibility with Windows 11 and macOS 12, import and export support for vector GeoPackages, and enhancements to the Terrain Shader tool including a new “Document Blending Mode” for overlaying images on elevation data.
Powering the Geospatial Image Editing Process
Geographic Imager for Adobe Photoshop delivers an all-encompassing solution to import, edit, and export geospatial images such as aerial and satellite imagery. Work with digital elevation models, GeoTIFFs, and other popular GIS image formats, now including GeoPackages, while using Adobe Photoshop features such as transparencies, filters, cropping, and image adjustments; all while maintaining georeferencing and support for hundreds of coordinate systems and projections.
New features of the Geographic Imager 6.5 plugin for Adobe Photoshop include:
Photoshop Compatibility: Works with the newest Adobe Photoshop 2022 (23.0.x)
Compatibility with Windows 11 and macOS 12
GeoPackage Support: Import and export vector GeoPackages
Terrain Shader Enhancements: “Document blending mode” options for image overlays with Terrain Shader
Additional feature enhancements and bug fixes
Geographic Imager 6.5 is immediately available and free of charge to all current Geographic Imager Maintenance Program members and starts at US$349 for non-maintenance upgrades. New fixed licenses start at US$749. Geographic Imager Basic Edition licenses start at US$99. Academic, floating, and volume license pricing is also available. For more information, visit www.avenza.com/geographic-imager.
More about Avenza Systems Inc.
Avenza Systems Inc. is an award-winning, privately held corporation that provides cartographers and GIS professionals with powerful software tools to make better maps. In addition to desktop mapping software, Avenza offers the mobile Avenza Maps app to sell, purchase, distribute, and use maps on iOS and Android devices. For more information, visit www.avenza.com.
Yesterday was Day 4 of the #30DayMapChallenge, with the goal being to create a map using “Hexagons”. In the spirit of the challenge, we took a not-so-serious approach to create a fun map of “Sharknado Risk” based on the 2013 film “Sharknado” using MAPublisher tools and a really neat hexbin dataset for the United States. This map was in part created for NACIS 2021, and you can see how we created the map by watching the full video presentation included below. This blog also includes a few supplementary notes if you wish to follow along.
What exactly is a Sharknado?
A sharknado is a fictional meteorological phenomenon that occurs when a large tornado scoops up some sharks, transports them some distance, and finally disperses across a populated area. Generally speaking, if a given area is close to potential shark habitats (be it an aquarium, a zoo, or even the ocean) and has a high frequency of tornadoes, the area is more “at-risk” of experiencing a sharknado. To that end, we gathered some great open datasets to help us map this risk. We collected a shapefile documenting point locations for every single tornado in the country dating back to 1950. With this dataset, we can determine the relative frequency of tornadoes for a given area. From OpenStreetMap, we estimated potential locations for sharks by collecting point coordinates for every aquarium, marine park, aquatic zoo, and ocean-facing beach. We used Overpass Turbo to query and extract these points to a spatial dataset and imported them into Illustrator using MAPublisher. Check out this great tutorial (produced by Steve Spindler!) that covers techniques for importing Overpass Turbo data into MAPublisher. The tutorial was part of our ongoing Mapping Class series, a video-focused series that provides helpful tips, techniques, and workflows from real-world cartographers.
Aggregate data with Spatial Join
Since the challenge of the day is hexagons, we needed a way to get our messy point data into our clean “hexbin” format. The Spatial Join tool allows us to aggregate our point data (Tornado and Shark Locations) into a single hex-grid polygon dataset.
Credits to Daniel Huffman’s projectlinework.org for making this dataset available!
The Spatial Join tool includes several different options for “spatial relationships” that will determine how our point data is joined to the new hex-grid. We can also specify how the tool will aggregate the attribute information for our joined data. In this case, we join our Tornado point data based on a “contains” spatial relationship. This will aggregate all tornado points that are “contained” within a given hexbin. We also specify that the tool should aggregate the attribute information for all “contained” tornados by tallying up the number of tornado points within each hex. Since we know the dataset spans a 69-yr period, we can easily calculate the average annual tornado frequency for each hexagon.
We apply a similar technique to our shark location data, this time specifying a “near” spatial relationship. We used some back-of-the-envelope math to estimate that a Sharknado (as it appears in the film) lasts substantially longer and travels farther than a normal tornado, meaning sharks as far away as 150 miles still present a potential risk. We can specify a search range of 150 miles and this will be applied to our spatial relationship as a cut-off distance.
Edit attributes with expressions
We assumed that Sharknado risk is highest when a given area is prone to tornadoes and also has a high concentration of potential shark locations. Given this, we came up with a basic equally-weighted, bi-variate risk index to assign a “Sharknado Risk” score based on these two variables. To calculate this score for each hexagon in our hexbin grid, we applied some custom expressions using MAP Attributes. First, we assigned a Tornado risk score from 1 to 6 based on the low to high frequency of tornadoes. We assigned a similar score for “Shark proximity” based on the concentration of potential shark locations. Finally, we combined these values into 36 unique scores to evaluate sharknado risk.
Stylize maps easily with MAP Themes
The final step is to stylize our map and create a layout. With MAP Themes, we can create rules-based stylesheets to easily stylize our map data in no time. MAPublisher comes with a great selection of built-in MAP Swatches, including several color brewer-based swatches that work great for choropleth-style maps like this. We used these swatches to create a custom, bi-variate swatch group to visualize each score of our “Sharknado Risk Index”. The MAP Themes tool also provided a neat data distribution viewer, which also allows us to inspect a histogram of our dataset. Although we used discrete categories for each of our risk scores, the data distribution viewer is very useful when working with continuous datasets since it allows you to see how your bin-widths will affect the display of colour on your choropleth.
The final touches
With stylization complete, Day 4 of the #30DayMapChallenge is almost in the bag. We can create a north arrow, and a scale bar and create a custom legend to facilitate easy interpretation. Since we are still within an Illustrator environment, we can use all the powerful native illustrator tools to add graphical design elements, text, and artwork to create a fun, infographic-style map. Although we were happy to call the map finished at this point, the great thing about making maps is there is also room to add more. For example, we might try using LabelPro to create custom labels that mark high and low-risk areas, or we could create insets to highlight specific regions of interest. The possibilities are endless!
We had a great time putting together this fun map for the #30DayMapChallenge, and we are excited to see what we can do for the remaining themes on the calendar! For those of you who are also making maps for the challenge, a reminder that the Avenza Map Competition is still accepting submissions. Share your map, compete with other map-makers in the community, and win some great prizes!
We are very excited to announce the release of MAPublisher 10.9, our latest version of the MAPublisher extension for Adobe Illustrator.
With MAPublisher 10.9, we are bringing forward full compatibility with Adobe Illustrator 2022, Windows 11, macOS 12, support for Vector GeoPackages and TopoJSON data formats, improvements to the Buffer Art tool, and several bug fixes.
Here’s what you can expect with the latest MAPublisher 10.9 release:
Compatibility with Adobe Illustrator 2022, Windows 11, and macOS 12
We want to ensure our users enjoy a truly seamless experience with the Adobe Illustrator workspace. Our team has worked to ensure that MAPublisher 10.9 is fully compatible with Adobe Illustrator 2022 that was announced at Adobe Max last week.
MAPublisher 10.9 is also fully compatible with the newly released Windows 11, as well as macOS 12 Monterey.
Import TopoJSON data
New to MAPublisher 10.9 is the ability to import TopoJSON type data formats directly into Adobe Illustrator. A TopoJSON is built off the GeoJSON data format in a way that encodes topology. Geometries in TopoJSON files are collected together from shared line segments called arcs. In this way, TopoJSON data formats can reduce redundancies and improve storage efficiency for spatial data.
Import and Export Vector GeoPackages
Many of our users have requested the ability to import and export vector GeoPackage data. We are happy to announce the full support of vector GeoPackages is now offered with MAPublisher 10.9. Vector GeoPackages are based on SQLite databases and offer an open-source, compact, lightweight, and flexible data format for easy and efficient storage or geoprocessing of spatial data.
Geodesic Options for the Buffer Art Tool
Geodesic options are now available for the Buffer Art tool. This functionality will provide more accurate distance buffers for point data when working on features distant from lines of true scale. Find this option in the “method” section of the Buffer Art tool.
Default Data filters and Styles on import
MAPublisher 10.9 users can create unique data filters and style settings that can be automatically applied to newly imported data in MAPublisher.
Changes to Compatibility
Avenza announces that compatibility support is changing for its desktop mapping software. Starting with MAPublisher 10.9, both Windows 7 and Adobe CS6 will no longer be supported. Users will require a valid Adobe Creative Cloud subscription and a compatible operating system to utilize the improvements and enhancements offered in MAPublisher 10.9. For questions and more information on how these changes around compatibility may affect your organization, please contact our Support Centre.
MAPublisher 10.9 is immediately available today, free of charge to all current MAPublisher users with active maintenance subscriptions and as an upgrade for non-maintenance users.
Enter the Avenza Map Competition!
The Avenza Map Competition is live! Enter our map competition for a chance to showcase your favourite maps with the Avenza community and win prizes! The competition consists of two categories: “Open” and “Student”, with two sets of exciting prizes.Submit your Map today!
Toronto, ON, November 9, 2021 – Avenza Systems Inc., producers of the Avenza Maps® app for mobile devices and geospatial extensions for Adobe Creative Cloud®, including Geographic Imager® for Adobe Photoshop®, is pleased to announce the release of MAPublisher® 10.9 for Adobe Illustrator®. This version offers compatibility with Adobe Illustrator 2022, Windows 11, and macOS 12. It also provides a variety of feature updates including the widely requested support for the vector GeoPackage and TopoJSON data formats, new Geodesic options for the Buffer Art tool, default filter on import and style on import options, and several performance improvements and bug fixes.
MAPublisher cartography software seamlessly integrates more than seventy GIS mapping tools into Adobe Illustrator to help you create beautiful maps from geospatial data. Import industry-standard GIS data formats and make crisp, clean maps with all attributes and georeferencing intact using the Adobe Illustrator design environment.
New major features of the MAPublisher 10.9 extension for Adobe Illustrator include:
Adobe Illustrator 2022 compatibility
Windows 11 and macOS 12 Monterey compatibility
TopoJSON support: Import TopoJSON data
GeoPackage support: Import and export vector GeoPackage data
Geodesic Buffer settings: Provides more accurate distance buffers on point data when working on features distant from lines of true scale
Default import filters and styles: Specify default options for filtering and displaying data that is imported into MAPublisher
Avenza announces that compatibility support is changing for its desktop mapping software. Starting with MAPublisher 10.9, both Windows 7 and Adobe CS6 will no longer be supported. Users will require a valid Adobe Creative Cloud subscription and a compatible operating system to utilize the improvements and enhancements offered in MAPublisher 10.9. For questions and more information on how these changes around compatibility may affect your organization, please contact our Support Centre.
MAPublisher 10.9 is immediately available free of charge to all current MAPublisher users with active maintenance and as an upgrade for non-maintenance users starting at US$649. New licenses are available from US$1499. MAPublisher FME-Auto and MAPublisher LabelPro are also available as add-ons starting at US$499. Academic, floating, and volume licenses are also available. Prices include one year of full maintenance. Read more about MAPublisher 10.9 in the release blog, or visit www.avenza.com/mapublisher for more details.
More about Avenza Systems Inc.
Avenza Systems Inc. is an award-winning, privately held corporation that provides cartographers and GIS professionals with powerful software tools to make better maps. Avenza also offers the mobile Avenza Maps app to sell, purchase, distribute, and use maps on iOS and Android devices.
Welcome back to Mapping Class! The Mapping Class tutorial series curates demonstrations and workflows created by professional cartographers and expert Avenza software users. Today Tom Patterson is sharing with us part two of his demonstration of editing Sentinel-2 Imagery Data using Geographic Imager and Adobe Photoshop. Continued from Part One, Tom shows how to take his newly crafted true-color image to make water regions really pop! He will show you how you can use the mosaic tool in Geographic Imager to work with elevation data to create layer masks that make adjusting water areas easy.
If you missed last month’s edition of Mapping Class, check out Part One of Tom’s demonstration.
We have also compiled supplementary video notes below.
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Work with Sentinel-2 Imagery in Geographic Imager: Part Two by Tom Patterson (Video notes adapted from original)
The vegetation brightening technique from part one also influences the color of water bodies. In part two, we will shift water bodies to a more attractive blue and diminish reflections, wind riffles, and sediment plumes. The technique involves adding a flat blue layer with an accompanying water layer mask in Photoshop.
Create a Water-Layer Mask
We will create the water layer mask from band 8. It contains data from the near-infrared section of the spectrum that clearly delineates water and land areas. Applying a steep curves adjustment to band 8 will compress the tonal range, which when inverted, results in a high-contrast land-water mask.
The trick is to adjust the curve in such a way so that it minimizes blemishes in the water and shadows on the land. Unfortunately, with this dataset, mountain cast shadows can still be seen as noise, even with the strong curve adjustment. Obviously, this would create challenges if we were to use this as our water mask, so we need to do a few more steps to get rid of that “noise”.
Clean-up the Water Layer Mask
I’ve grabbed a 30m SRTM DEM for this area. I can use this as a mask to get rid of those pesky mountain shadows. The tricky part is that we are now working with mixed projections and different datasets.
I can use the nifty Mosaic tool in Geographic Imager to bring these two datasets together. The really important part is to specify the “crop to destination extents” option. Doing this will not only apply an on-the-fly projection transformation but also crop the large DEM dataset automatically down to match my water mask layer. Also, be sure to select the “merge source document layers” option – this really helps clean up the layer management, while still keeping the important stuff separate.
To get rid of those mountain shadows, we apply another linear curves adjustment. Similar to before, the idea is to compress that tonal range until only the regions at or near sea level are visible (most of the water in our image is at sea level).
Select the layer, apply the “Screen” blending mode, and then “flatten” the image to create the final water mask layer (now with removed mountain shadows!).
Apply the Water-mask layer
When the water mask is ready, copy it to the computer clipboard. Next, go back to the true color image and create a new topmost layer and add a layer mask. Then paste this into the layer mask (be sure to invert it!). You can then fill the water layer with whichever flat blue that you like. Finally, partially decrease the opacity of the flat blue layer to reveal any sediments or reflections that may exist in the satellite images. You might need to do a bit of manual touch-up with the brush tool on your mask layer to completely remove all mountain shadows.
Mosaic Multiple Images
I did almost the exact same technique on another image directly south of this one, and I’ve decided I would like to mosaic both of these images together into a single composite. Again, I use the mosaic tool (this time uncheck the “crop” option), and voila! Both images are mosaiced together in less than a second!
Finishing Touches
A few more touch-ups with the gradient tool to blend the images at their border, and some final adjustment layers to boost the saturation a bit and we are basically done.
The very last thing that I do is to apply sharpening, which is irreversible. You will need to experiment to determine the amount that is best. As a starting point, try these settings (Filter/Sharpen/Unsharp Mask). Amount = 100%, Radius = 0.5 pixels, Threshold = 0 levels
That’s it! We took some really nice multispectral Sentinel-2 Imagery, some great tools in Geographic Imager, and used some of the nice native Photoshop tools to create a really vibrant, true-color image that’s ready to be draped over some 3D relief or used to create another nice map!
A note on Exporting Images…
Before exporting the final image as a GeoTIFF using Geographic Imager, go to Image/Mode and reduce the bit depth from 16 to 8 bits per channel, and then flatten the image. This will significantly reduce the file size.
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About the Author
Tom Patterson worked as a cartographer at the U.S. National Park Service, Harpers Ferry Center until retiring in 2018. He has an M.A. in Geography from the University of Hawai‘i at Mānoa. Presenting terrain on maps is Tom’s passion. He publishes his work on shadedrelief.com and is the co-developer of the Natural Earth dataset and the Equal Earth projection. Tom has served as President and Executive Director of the NACIS. He is now Vice-Chair of the International Cartographic Association, Commission on Mountain Cartography.
Captured largely by satellites, planes, or unmanned aerial vehicles (i.e., drones), imagery data reveals interesting patterns and important information on Earth’s surface processes. This information can tell us not only about the natural world around us but also how we are changing it. From deforestation, snowmelt, desertification, and water resources management, to urban development, agriculture, forestry, and national defence, the stories we can tell with imagery data have become more important than ever. With hundreds of active earth observation satellites orbiting the Earth, never before has there been more data available to work with, and entire professions have been developed to learn from the vast troves of imagery data now available.
Although the world of imagery analysis is full of complex techniques and analytical workflows, learning the basics doesn’t have to be intimidating. We’ll show you in today’s blog, where we are looking at one of the simplest, yet most effective techniques for examining imagery data: usingband-combinations to createfalse colour composites. With the Geographic Imager plugin for Adobe Photoshop, we will explore how you can access, import, and process multispectral imagery data to visualize some interesting patterns on Earth’s surface.
Bands and the corresponding wavelength ranges for the Landsat 8 Earth Observation Satellite. Are a variety of “visible” and “invisible” bands are captured by the sensors on-board.
When we think of satellite imagery data, we often imagine something similar to the view out the window of a plane. To our eyes from high above, the Earth’s surface is very much dominated by “natural” colours such as blue and green. This is due to our eyes having evolved to observe what we call the “visible” part of the electromagnetic spectrum. This visible component is in fact only a small part of the greater spectrum as a whole, and many satellites are designed to capture wavelengths far beyond what we can see with the unaided eye. This so-called “invisible” part of the spectrum includes ultraviolet, infrared, and near-infrared wavelengths that can be extremely important for scientists studying Earth’s surface processes. Satellites will often capture individual images at a wide range of different wavelengths and combine these in something called “multispectral imagery”. Landsat 8 is an Earth observation satellite active since 2013 and is one of the best sources of high-quality multispectral imagery data available to date. Better yet, through USGS Earth Explorer web app, users can download high-quality Landsat 8 imagery for almost anywhere on Earth.
After creating a free account on Earth Explorer, we can start looking for some data. Use the search criteria panel to specify a region of interest (you can also manually draw a search area using the map panel). In this section, we can also specify a date range, which is very useful if you wish to view a particular region at a specific date or want to see how a region may have changed over time. For this example, we are going to be looking at the area of Las Vegas, Nevada. Often referred to as an “oasis”, we want to take a look at vegetation growth in this desert city, and see just how accurate this term may be.
In the Datasets window, we can access different data providers for our imagery. For our needs, we want to select the Landsat C2 Analysis Ready Data (ARD). This will contain the prepared multispectral imagery we need to create a false colour composite. In the “additional criteria” section, we can specify the spacecraft (Landsat 8) and Cloud cover tolerance for our imagery data. For false colour composites, it is important to get a clear unobstructed view of the Earth’s surface, so we should aim for as little cloud cover as possible (<10%).
The Results panel now presents us with a great selection of imagery datasets for our area. We recommend examining the available datasets, and ensuring the data covers the area of interest by using the footprint icon next to each data product. With the right dataset selected, we can download the dataset we will import in Geographic Imager (choose the “Surface Reflectance Bundle” option from the download options).
Looking at the downloaded files, you will see that several files end in a suffix indicating the “band” captured in that image (i.e suffix “_B1”, “_B2”, “_B3”, etc). These bands correspond to the specific ranges of wavelengths we discussed earlier. We will be combining several of these different images to create our composite.
Now that we have the data, Geographic Imager will make it easy to import, and edit multispectral imagery data, all while retaining accurate spatial referencing. In addition, being seamlessly integrated into Adobe Photoshop, it gives us access to powerful Photoshop tools such as adjustment layers and curves (check out this great Mapping Class tutorial by Tom Patterson on using adjustment layers to improve imagery data). We start by opening the image files corresponding to Bands 1 through 7 (files ending in suffixes “_B1” to “_B7”).
Go to Window > Channel to open the Channels panel From the Channel panel options menu, select “Merge channels” to combine the separate images into a single composite with different bands. Set the Merge Mode to “Multichannel” and specify each channel by assigning it to its corresponding image (i.e., Channel 2> Band 2, Channel 3> Band 3, etc.). Complete this for all channels.
To work with our new multi-channel image, ensure the Image mode is set to Grayscale (Image> Mode> Grayscale). You may also want to rename the channels to match their spectrum component (i.e., rename “Alpha Channel 2” to “Band 2 – Blue” and so on.)
Next, open the Channel Management tool on the Geographic Imager Panel. Here we can easily modify channels to create different colour composites that match our needs. Specify the colour mode at the top of the panel to be “RGB Colour”. Next, specify the channel roles that will be used to display the image. To start, let’s go with the obvious choice. For “Band 4 – Red”, select the “Red” channel role. For “Band 3 – Green”, specify the “Green” channel role, and for “Band 2 – Blue”, select the “Blue” colour role. We call this band combination 4-3-2, referring to the bands we assign to Red, Green, and Blue respectively. This is also what is called the “natural colour” image, and will show us a view of the Las Vegas area as it would appear to our eyes (we’ve used some adjustment layers to brighten the image before displaying it).
Natural Colour (4-3-2) Image of Las Vegas
Being in the middle of the desert, it’s unsurprising that our image is a mix of drab browns and greys, reflecting the mix of concrete structures, sandstone, and small shrubbery that permeate the landscape. If you look very closely, you might notice a few dark green patches, which indicate some of the many golf courses and parks that are interspersed throughout the city. In the natural colour band combination, however, only the larger areas of vegetation are easily visible, and others are generally washed out by their surroundings. If we want to get a better idea of the vegetation that persists in this desert “oasis”, we will need to apply some modifications to our imagery to create a false colour composite.
Opening the channel management tool again, this time we are going to create the band combination 5-4-3. This combination is one example of a “false colour” image and will help us to highlight the presence of vegetation in the area.
False Colour (5-4-3) Image. Note that vegetation appears as bright red.
Looking at this new image, you might see how vegetation stands out clearly as bright red in colour. Irrigated vegetation, such as that found on golf courses, parks, lawns, and crop fields stands out even more prominently. Compared to the natural colour settings, this image makes it much easier to identify vegetated areas, even small ones. Presenting the image in this way is not only more informative but also tells a story of how human intervention affects our environment. The highly structured shape and location of most of these vegetated areas indicate a high level of human involvement, especially when compared to the more “natural” areas outside the city. This provides strong hints at the massive role water management and irrigation have in overcoming an otherwise arid, harsh, growing environment.
ou may want to save the file as a Photoshop document (PSD/PSB) in order to work with the image again later or explore different band combinations on another machine. Starting with Geographic Imager 6.4, internal georeferencing is now embedded directly within a saved Photoshop document. This reduces the need to retain an external spatial referencing file when the project is re-opened at a later date. Alternatively, we can also Export to one of several different spatial image formats. To demonstrate, we’ve exported to a GeoTIFF format, which will also retain internal georeferencing. When selecting “Save As.. -> “Geographic Imager – BigTIFF”, a dialogue window will open that allows us to configure compression, pixel order and block size for our exported image. Note that GeoTIFF formats allow us to retain our Image Channels if we wish (but this will increase the file size). Click OK and the image is now exported for future use.
There are many different band combinations you can use to explore and analyze different patterns on Earth’s surface. We only examined two very specific types in this demonstration, but below we have provided a list of several other common Landsat 8 band combinations, as well as their use-cases.
The above band combinations are specific to Landsat 8 Imagery. Different satellites will have alternative band combinations.
Try out a few combinations and see what types of interesting patterns you can observe. With the Channel Management tool in the Geographic Imager plugin for Adobe Photoshop, exploring band combinations and false-colour composites with imagery data is a breeze!
The above false colour composite uses Band Combination 7-6-4. This combo works best for highlighting human-made developments and structures. Urban areas, buildings and structures will appear as bright purple to blue in this combination.
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