It was such a pleasure to be part of the QGIS User Conference 2025 in Norrköping! The event was extremely well organised — a big thank you to the amazing local team for pulling it all together so smoothly. Personally, it felt special to be back in Sweden, almost 20 years after my Uppsala university days. I truly enjoyed giving the opening keynote and sharing the latest from the QGIS project — and of course, showcasing all the QField greatness we’ve been working so hard on 💚

🚀 Talks & Presentations

🎊 QGIS.org updates

As Chair of the QGIS.org association, I had the opportunity to share recent updates from the QGIS community. I spoke about ongoing development efforts, community growth, funding initiatives, and collaborations that help keep the project moving forward.
The focus was on the people who make QGIS possible — contributors, sponsors, local user groups, and everyday users — and how their involvement continues to shape the project’s direction and ensure its long-term sustainability.

👉 Slides here (unfortunately keynotes and workshops were not recorded)

💡 Extending QFieldCloud – Ideas and Practical Examples

In this talk, Michael, one of our Full stack GeoNinja and Web Cartography teacher, explained how QFieldCloud can be extended by integrating additional Django apps. This allowed, for example, the generation of QField projects, reacting to events from fieldwork, adding new websites and APIs, and executing entire QGIS models as QFieldCloud jobs.

After a technical introduction, various practical examples were explored. It was shown how OpenStreetMap data can be fully automated to download offline-capable QField projects. Attendees got inspired by how an own WebGIS is brought to life in QFieldCloud using OpenLayers. Furthermore, he demonstrated how remote sensing data can be downloaded, analysed in a QGIS pipeline, and the results made available in QField projects. Finally, the discussion focused on how these capabilities can be optimally used in combination with QField plugins.

🛣️ SIGNALO: An Open-Source Solution for Mapping Road Signs in QGIS

Presented by Denis, our Industry Solution Team Lead, SIGNALO is a QGIS-based solution for mapping road signs, powered by a PostGIS database. It addresses the challenge of representing vertical data on maps while ensuring compliance with Swiss norms, yet remains highly customizable for use at local, regional, or national levels. Moreover, the flexible design allows for easy adaptation to other countries.

In this talk, Denis explored both the technical foundations of the project and the organizational strategies that enable its open-source development.

📱 1.5 Million Reasons to Use QField

In this talk, I shared our vision for the future of QField — the world’s most popular open-source mobile GIS solution. With over 1.4 million downloads and 500,000 active users, QField is making a real difference for fieldwork around the globe.
I spoke about where we’re headed next, what new features are coming, and how we at OPENGIS.ch are working to empower professionals across all sectors with powerful, flexible, and open tools for mobile geospatial workflows.

💧 Standardizing Groundwater Data Collection with QField

We were excited to see Alexandra Nozik from the Leibniz Centre for Tropical Marine Research (ZMT) present her work on a QField project designed to standardize groundwater data collection in remote tropical regions. The setup uses QGIS layers, predefined parameters, and metadata standards to ensure high-quality, consistent field data. Integrated with QFieldCloud, the workflow improves data accuracy, reduces data loss, and enables real-time collaboration. The project will be published on GitHub as a ready-to-use package, supporting reliable and comparable groundwater data collection across the scientific community.

📱 QField and QFieldCloud - seamless fieldwork for QGIS

In this workshop, Zsanett, QField Product Manager, went through the complete fieldwork process: setting up a QGIS project, publishing the project via QFieldCloud, collecting data via the QField mobile app and synchronising the field data back to your main dataset in the office. QField works on top of QGIS and allows users to set up maps and forms in QGIS on their workstation and deploy them in the field. QField uses QGIS’s data providers (OGR, GDAL, PostGIS and others) and supports most common file formats. QField combines a minimal design with sophisticated technology that allows intuitive viewing and editing of data. QField’s map rendering is supported by the QGIS rendering engine, so the results are identical and the full range of styling options available on the desktop is available. Editing forms in QField respect the QGIS configuration and are optimised for touch interaction. QFieldCloud makes field collaboration much easier. Participants learned about configuring users with different rights, collecting offline and online data, and synchronizing field data and QGIS project data.

🚀 Our first international QField Day

On June 4th, the first international QField Day took place in Norrköping, right after the QGIS User Conference. This free half-day event was dedicated to QField, QFieldCloud, and the mobile GIS community, bringing together users, contributors, and developers for an afternoon of field-tested workflows, live demos, community stories, and open discussions. It was a great opportunity to connect, exchange ideas, and explore the future of mobile geospatial tools in the open-source ecosystem.
Definitely not our last one. 💚

🤝 Supporting Open Source

We were proud to support QGIS UC25 in Norrköping, Sweden, as Platinum Sponsors — reaffirming our commitment to the open-source geospatial community and the continued growth of the QGIS ecosystem.

👋 Looking Ahead

We’re already looking forward to the next gathering — QGIS UC26 will take place in Switzerland 🇨🇭!

After the conference, I joined the contributor meeting along with four QGIS developers from OPENGIS.ch. It was a fantastic chance to collaborate in person, help shape the future of QGIS, and reconnect with old friends from the community.

Building on top of the last release which introduced background tracking, this development cycle focused on polishing functionalities and building on top of preexisting features. The variety of improvements is sure to make our diverse user base and community excited to upgrade to QField 3.6.

Main highlights

One of the most noticeable improvement in this version is the addition of “map preview rendering”. QField now renders partial map content immediately beyond the edge of the screen, offering a much nicer experience when panning around as well as zooming in and out. Long-time QGIS users will recognise the behaviour, and we’re delighted to bring this experience to the field

This upgrade was the foundation upon which we built the following enhancement: as of QField 3.6, using the “lock to position” mode now keeps your position at the very center of the screen while the canvas slips through smoothly. This greatly improves the usability of the function as your eyes never need to spend time locating the position within the screen: it’s dead center and it stays there!

https://videopress.com/v/kJg69l49?resizeToParent=true&cover=true&preloadContent=metadata&useAverageColor=true

Reminder, the “lock to position” mode is activated by clicking on the bottom-right positioning button, with the button’s background turning blue when the mode is activated.

The improvements did not stop there. Panning and zooming around used to drop users out of the lock mode immediately. While this had its upsides, it also meant that simple scale adjustments to try and view more of the map as it follows the position was not possible. With QField 3.6, the lock has been hardened. Moving the map around will temporarily disable the lock, with a visual countdown embedded within a toast message informs users of when the lock will return. An action button to terminate the lock is located within the toaster to permanently leave the mode.

Moving on to QFieldCloud, this cycle saw tons of improvements. To begin with, it is now possible to rely on shared datasets across multiple cloud projects. Known as localised data paths in QGIS, this functionality enables users to reduce storage usage by storing large datasets in QFieldCloud only once, serving multiple cloud projects, and also easing the maintenance of read-only datasets that require regular updates.

QFieldSync users will see a new checkbox when synchronising their projects, letting them upload shared datasets onto QFieldCloud.

Furthermore, QField has introduced a new cloud project details view to provide additional details on QFieldCloud-hosted projects before downloading them to devices. The new view includes a cloud project thumbnail, more space for richer description text, including interactive hyperlinks, and author details, as well as creation and data update timestamps. Finally, the view offers a QR code, which allows users to scan it quickly and access cloud projects, provided they have the necessary access permission. Distributing a public project has never been easier!

Beyond that, tons more has made its way into QField, including map layer notes viewable through a legend badge in the side dashboard, support for feature identification on online raster layers on compatible WMS and ArcGIS REST servers, atlas printing of a relationship’s child feature directly within the parent feature form, and much more. There’s something for everybody out there.

Focus on feature form polishing

This new version of QField coincides with the release of XLSForm Converter, a new QGIS plugin created by OPENGIS.ch’s very own ninjas. As its title implies, the plugin converts an XLSForm spreadsheet file (.xls, .xlsx, .ods) into a full-fledged QGIS project ready to be used in QField with a pre-configured survey layer matching the content of the provided XLSForm.

This was a golden opportunity to focus on polishing QField’s feature form. As a result, advanced functionalities such as data-driven editable flag and label attribute properties are now supported. In addition, tons of paper-cut bugs, visual inconsistencies, and UX shortcomings have been addressed. Our favourite one might just be the ability to drag the feature addition drawer’s header up and down to toggle its full-screen state :)

As long time sponsors of FOSSGIS, we stepped up the game this year and became Platinum Sponsors for FOSSGIS 2025. We are proud to be part of a thriving open-source GIS community and to contribute to such a great conference. Here’s a recap of everything we were involved in:

🚀 Talks & Presentations

🌍 QField: New Strategy and Application Potential
Berit and Marco presented how QField, with over 1 million downloads and 350,000 active users, is now recognized as Digital Public Good aligned with the UN Sustainable Development Goals. Marco also shared the vision and mission behind QField’s development — highlighting our commitment to empowering field teams across the globe with open, user-friendly tools for data collection.
Real-world stories illustrated how QField helps bridge data gaps to support informed, sustainable decision-making.
👉 View talk

⚙️ QField in Practice: Fieldwork Made Easy
Berit and Michael led an interactive workshop demonstrating how to develop a QField project from scratch. The goal was for each participant to create and sync their own field study project using QFieldCloud, focused on collecting data on flowering plants in the picturesque “Schlussgarten.”
👉 View session

🌐 When Web Meets Desktop
Matthias demonstrated how Django can be used to build consumable geodata layers via OGC API - Features endpoints. His talk covered how to use Python and Django ORM to elegantly define data models and business logic, offering an alternative to complex database logic.
👉 View talk

☁️ Extending QFieldCloud – Ideas and Practical Examples
Michael showed how QFieldCloud can be extended with Django apps, sharing practical implementations such as automated project generation and integration of remote sensing workflows.
👉 View talk

fossgis25-poster-extending-qfc Download

🔌 QField Plugins – Examples and Possibilities
In a lightning talk, Michael introduced useful QField plugins, explained how to install and use them, and explored how they can enhance your mobile GIS workflows.
👉 View talk

🧪 Hands-on qgis-js: Building Interactive QGIS-Based Web Maps
In this practical workshop, Michael guided participants through using qgis-js, an exciting new project that brings QGIS functionality directly into the browser.
👉 View session

💬 QGIS AMA Expert Session
Matthias and Marco hosted a live Q&A session where attendees could ask everything about QGIS development, best practices, organisation and real-world applications.

🤝 At the Booth

Our QField booth was buzzing with activity all week – from plugin demos and project showcases to deep dives into QFieldCloud and field mapping workflows. We had great conversations, received valuable feedback, and met many enthusiastic users.

💚 Supporting Open Source

We were proud to be Platinum Sponsors of FOSSGIS 2025. Supporting open-source events like this is essential for fostering innovation, collaboration, and community-driven growth in the GIS world.

👋 Looking Ahead

Thank you to the organisers, speakers, and everyone who joined us in Münster. We left the event full of ideas, motivation, and appreciation for this community – and we’re already looking forward to the next FOSSGIS!

#QField #QFieldCloud #FOSSGIS2025 #OpenSourceGIS #QGIS #SupportOpenSource

Focused on stability and usability improvements, most users will find something to celebrate in QField 3.2

Main highlights

This new release introduces project-defined tracking sessions, which are automatically activated when the project is loaded. Defined while setting up and tweaking a project on QGIS, these sessions permit the automated tracking of device positions without taking any action in QField beyond opening the project itself. This liberates field users from remembering to launch a session on app launch and lowers the knowledge required to collect such data. For more details, please read the relevant QField documentation section.

As good as the above-described functionality sounds, it really shines through in cloud projects when paired with two other new featurs.

First, cloud projects can now automatically push accumulated changes at regular intervals. The functionality can be manually toggled for any cloud project by going to the synchronization panel in QField and activating the relevant toggle (see middle screenshot above). It can also be turned on project load by enabling automatic push when setting up the project in QGIS via the project properties dialog. When activated through this project setting, the functionality will always be activated, and the need for field users to take any action will be removed.

Pushing changes regularly is great, but it could easily have gotten in the way of blocking popups. This is why QField 3.2 can now push changes and synchronize cloud projects in the background. We still kept a ‘successfully pushed changes’ toast message to let you know the magic has happened 🚀

With all of the above, cloud projects on QField can now deliver near real-time tracking of devices in the field, all configured on one desktop machine and deployed through QFieldCloud. Thanks to Groupements forestiers Québec for sponsoring these enhancements.

Other noteworthy feature additions in this release include:

• A brand new undo/redo mechanism allows users to rollback feature addition, editing, and/or deletion at will. The redesigned QField main menu is accessible by long pressing on the top-left dashboard button.
• Support for projects’ titles and copyright map decorations as overlays on top of the map canvas in QField allows projects to better convey attributions and additional context through informative titles.

Additional improvements

The QFieldCloud user experience continues to be improved. In this release, we have reworked the visual feedback provided when downloading and synchronizing projects through the addition of a progress bar as well as additional details, such as the overall size of the files being fetched. In addition, a visual indicator has been added to the dashboard and the cloud projects list to alert users to the presence of a newer project file on the cloud for projects locally available on the device.

With that said, if you haven’t signed onto QFieldCloud yet, try it! Psst, the community account is free 🤫

The creation of relationship children during feature digitizing is now smoother as we lifted the requirement to save a parent feature before creating children. Users can now proceed in the order that feels most natural to them.

Finally, Android users will be happy to hear that a significant rework of native camera, gallery, and file picker activities has led to increased stability and much better integration with Android itself. Activities such as the gallery are now properly overlayed on top of the QField map canvas instead of showing a black screen.

QField is a community-driven open-source project. It is free to share, use and modify and it will stay like that. The very essence of a community is to help and support each other. And that’s where YOU come into play. To make it work we need your support!

For those who don’t know much about the concept of open source projects, a bit of background. Investing in open-source projects is a technical and ethical decision for OPENGIS.ch. Open source is a technological advantage, as we receive input from many developers worldwide who are motivated to work out the best possible software. It prevents our customers from vendor lock-in and allows complete ownership and control of the developed software. And finally, not only financially independent businesses and people should benefit from professional software but also those who might not have the financial means to pay for features, and licences.

You are not a developer, but you still like to use QField and support it? Good news. You don’t have to be a developer to use, contribute or recommend the app. There are plenty of things that need to be done to help QField to remain the powerful software it is right now and become even better. Here are a few suggestions on how you can give something back.

1. Review the app ★★★★★ in google’s play store or apple’s app store.
2. Let the world know about it! It doesn’t matter if you’re on Twitter, LinkedIn, Instagram or any other social media platform. Show and tell about where QField helped you. We appreciate every post and we promise to like, share and comment.
3. Write about your experience and please let us know. Be it in your blog or as a new success story. Insights into field projects are extremely valuable. It helps us to make the app even more efficient for your work, and it helps others to understand the range of applications for QField.
4. Register for a paid QFieldCloud account. QFieldCloud allows to synchronize and merge the data collected in QField. QFieldCloud is hosted by the makers of QField and by getting an account you help QField too.

Do you want to do something that is more hands-on and directly linked to the app? No problem.

1. Help with the documentation. You can document features, or improve the documentation in English. Read the how-to guide to get started.
2. And if you are multilingual you might consider translating the documentation or the app in your language.
3. Become a beta tester and be the first to report a bug! When something doesn’t work properly it might be a bug. The quicker we know about it, the faster it can be resolved.
4. You can ask and answer questions on gis.stackexchange and help others on the user discussions platform.
5. If you are a developer and you want to get involved in QField development, please refer to the individual documentation for QField, QFieldCloud and QFieldSync.

And now finally for those of you who have the financial means, you can either sponsor a feature or subscribe to one of the monthly sponsorships. By doing so you help get freshly baked QField versions straight to everyone’s devices.

Nothing in it for you? In that case, just drop by to say thank you or have a hot or cold beverage with us next time you meet OPENGIS.ch at a conference and you might make our day!
Want to know more about the idea of community-driven open-source projects and the QGIS project in particular? Check out Nyall Dawson’s blog post about how to effectively get things done in open source!

The international community of QGIS contributors got together in person from 18 to 22 August in parallel to OpenStreetMap State of The Map event and right before the FOSS4G. So there was a lot of open source geo power concentrated in the beautiful city of Florence in those days. It was my first participation and all I knew was that it’s supposed to be an unconference. This means, there is no strict schedule but space and opportunity for everyone to present their work or team up to discuss and hack on specific tasks to bring the QGIS project to the next level.

Introduction and first discussions

We were a group of six OPENGIS.ch members arriving mostly on Thursday, spending the day shopping and moving into our city apartment. In the evening we went to a Bisteccheria to eat the famous Fiorentina steak. It was big and delicious as was the food in general. Though, I am eating vegetarian since to compensate. On Friday we went to the Campus to meet the other contributors. After a warm welcome by the organizer, Rossella and our CEO and QGIS chair Marco Bernasocchi we did an introduction round where everyone mentioned their first QGIS version ever used. At this point, I became aware of the knowledge and experience I was sharing the room with. Besides this, I noticed that there was another company attending with several members, namely Tim Sutton’s Kartoza, which is also contributing a lot to QGIS. The first discussion was about QGIS funding model, vision, communication and on the new website in planning. This discussion then moved into some smaller groups including most of the long term contributors. I was looking around, physically and virtually, and tried to process all the new inputs and to better understand the whole QGIS world. Besides, I noticed my colleague Ivan having problems with compiling QGIS after upgrading to Ubuntu 22.04 which then motivated my other colleague Clemens to implement a docker container to do the compilation. Nevertheless, I postponed my Ubuntu upgrade. That evening we went out all together to have a beer or two and play some pool sessions and table football. Finally, the OPENGIS.ch crew navigated back home pairing a high-precision GNSS sensor with a mobile device running OpenStreetMap in QField. We arrived back home safely and super precise.

First tasks and coffee breaks

There was catering in the main hall covering breakfast, lunch and coffee breaks. It never took long after grabbing a cup of coffee to find yourself in a conversation with either fellow contributors or OpenStreetMap folks. I chatted with a mapper from Japan about mobile apps, an engineer from Colombia about travelling and a freelancer from the Netherlands about GDAL, to name 3 coffees out of many.

QGIS plugins website

After some coffee, Matthias Kuhn, our CTO and high-ranking QGIS contributor, asked me whether I could improve some ugly parts of QGIS plugins website. So I had my first task which I started working on immediately. The task was to make the site more useful on mobile devices which would be achieved by collapsing some unimportant information and even removing other parts. I noticed some quirks in the development workflow, so I also added some pre-commit hooks to the dev setup. Dimas Ciputra from Kartoza helped me finalize the improvements and merge them into master branch on github.

QGIS website downloads section

Regis Haubourg asked to help simplify the QGIS Downloads for Windows section on the main QGIS website. We played around in the browser dev tools until we thought the section looked about right. I then checked out the github repo and started implementing the changes. I need to say the tech stack is not quite easy to develop with currently, but there is a complete rework in planning. Anyway, following the pull request on github a lively discussion started which is ongoing by the time of writing. And this is a good thing and shows how much thought goes into this project.

Presentations

There were many interesting and sometimes spontaneous presentations which always involved lively discussions. Amy Burness from Kartoza presented new styling capabilities for QGIS, Tobias Schmetzer from the Bavarian Center for Applied Energy Research presented the geo data processing and pointed out issues he encountered using QGIS on this and Etienne Trimaille from 3liz talked about qgis-plugins-ci, just to name a few.

Amazing community

On Saturday evening a bus showed up at the campus and took us on a trip up to the hills. After quite a long ride we arrived at a restaurant high up with mind-blowing view of the city. I forgot how many rounds of Tuscan food were served, but it was delicious throughout. An amazing evening with fruitful conversations and many laughs.

The weather was nice and hot, the beers cold, the Tuscan food delicious and the contributors were not only popular Github avatars but really nice people. Thank you QGIS.

Starting with QField 2.2, users can fully rely on animation capabilities that have made their way into QGIS during its last development cycle. This can be a powerful mean to highlight key elements on a map that require special user attention.

The example below demonstrates a scenario where animated raster markers are used to highlight active fires within the visible map extent. Notice how the subtle fire animation helps draw viewers’ eyes to those important markers.

Animated raster markers is a new symbol layer type in QGIS 3.26 that was developed by Nyall Dawson. Supported image formats include GIF, WEBP, and APNG.

The second example below showcases more advanced animated symbology which relies on expressions to animate several symbol properties such as marker size, border width, and color opacity. While more complex than simply adding a GIF marker, the results achieved with data-defined properties animation can be very appealing and integrate perfectly with any type of project.

https://player.vimeo.com/video/732691644

You’ll quickly notice how smooth the animation runs. That is thanks to OPENGIS.ch’s own ninjas having spent time improving the map canvas element’s handling of layers constantly refreshing. This includes automatic skipping of frames on older devices so the app remains responsive.

Oh, we couldn’t help ourselves but take the opportunity to demonstrate how nice the QField feature form layout is these days in the video above ? To know more about other new features in QField 2.2, go and read the release page.

Happy field mapping to all!

The lovely animal markers used in the zoo example above were made by Serbian artist Arsenije Vujovic.

What are we looking for?

We would like to use WMS offline on QField. For that, we need to figure out what is the best way to get a raster from a WMS and which format is the most efficient (size and performance).

In this post we’ll show you is how to generate the ideal raster file from a WMS and the results of our efficiency tests for the the different raster formats.

WMS to GPKG

The simple way

If there is no limitation on the WMS or you need only a small region, here is the easiest process.

1. Request the WMS and store a description file in XML:

gdal_translate "WMS:url" file.xml -of WMS

1. Create a Geopackage from the information in the description file.

gdal_translate -of GPKG file.xml file.gpkg -co TILE_FORMAT=JPEG

That was quite simple, right?

The larger datasets way

If the command takes too much time, it means that it is trying to download too much data and could be caused by downloading higher resolution data than required.
The command might even completely fail if it contains a request for bigger data blocks thant the server allows.

Here is the process to get larger datasets in a simple way. Let’s use a real example:

1. Use gdal_translate "WMS:https://www.gebco.net/data_and_products/gebco_web_services/web_map_service/mapserv?request=getmap&service=wms&crs=EPSG:4326&format=image/jpeg&layers=gebco_latest&version=1.1.0" test.xml -of WMS
2. Open the test.xml file for editing, here you’ll find the parameters of the WMS. We change the “SizeX” to 3600 and “SizeY” to 1800. By changing these parameters we lower the resolution. It is important to keep proportionality.
3. Another thing we need to change are “BlockSizeX” and “BlockSizeY” that define the size of the tiles. We change both to 2048.
4. Finally, use gdal_translate -of GPKG test.xml test.gpkg -co TILE_FORMAT=JPEG
5. To make a Geopackage pyramid use gdaladdo GPKG:test.gpkg:gebco_latest. It will replace the Geopackage, if you want to keep the original one, you need to copy it first.

Now you have a raster Geopackage that you can use in QField.

Testing raster formats

Preparing the files

As first step we exported our test orthophoto WMS to a plain GeoTIFF using QGIS’ default behaviour.

Formatgdal_translategdaladdogpkg JPEGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_JPEG.gpkg” -co TILE_FORMAT=JPEG gpkg PNGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG.gpkg” -co TILE_FORMAT=PNGgpkg PNG_JPEGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG_JPEG.gpkg” -co TILE_FORMAT=PNG_JPEGgpkg PNG8gdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG8.gpkg” -co TILE_FORMAT=PNG8gpkg WEBPgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_WEBP.gpkg” -co TILE_FORMAT=WEBPgpkg pyramid_JPEGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_JPEG.gpkg” -co TILE_FORMAT=JPEGgdaladdo GPKG:C:\test\test_JPEG.gpkg:test_gpkg_JPEG gpkg pyramid_PNGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG.gpkg” -co TILE_FORMAT=PNGgdaladdo GPKG:C:\test\test_PNG.gpkg:test_gpkg_PNGgpkg pyramid_PNG_JPEGgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG_JPEG.gpkg” -co TILE_FORMAT=PNG_JPEGgdaladdo GPKG:C:\test\test_PNG_JPEG.gpkg:test_gpkg_PNG_JPEGgpkg pyramid_PNG8gdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_PNG8.gpkg” -co TILE_FORMAT=PNG8gdaladdo GPKG:C:\test\test_PNG8.gpkg:test_gpkg_PNG8gpkg pyramid_WEBPgdal_translate -of GPKG “C:\test\ortho_test.tif” “C:\test\test_WEBP.gpkg” -co TILE_FORMAT=WEBPgdaladdo GPKG:C:\test\test_WEBP.gpkg:test_gpkg_WEBPJPEG2000gdal_translate -of JP2OpenJPEG “C:\test\ortho_test.tif” “C:\test\test_jpeg_2000.jpg"COG DEFLATEgdal_translate “C:\test\ortho_test.tif” “C:\test\test_cog.tif” -co TILED=YES -co COPY_SRC_OVERVIEWS=YES -co COMPRESS=DEFLATECOG_JPEGgdal_translate “C:\test\ortho_test.tif” “C:\test\test_cog_JPEG.tif” -co TILED=YES -co COPY_SRC_OVERVIEWS=YES -co COMPRESS=JPEGtifIn QGIS right click on the layer > export > save as > (see the details in the picture under the table)MBTgdal_translate -of MBTILES “C:\test\ortho_test.tif” “C:\test\test_mbt.mbtiles"Creation commands for all the tested formats

Rendering test results

We have tested many formats, here is a table with the results of the size and rendering speed in QGIS and QField.
To analyze the speed we used qgis_bench.exe -i 10 -p "C:\test\test.qgs" >> "C:\test\test.log.
Qgis_bench is a tool that renders a QGIS project a number of times to get performance measurements. The parameter -i is to define the iterations and -p is the project used which contains only the generated raster.

FormatExtent [m]File size [GB]Total_avgTotal_maxdevTotal_minTotal_stdevgpkg JPEG52'880/29'2300.4250.242255.7815.539244.984gpkg PNG52'880/29'2302.9412.002490.328152.142259.859gpkg PNG_JPEG52'880/29'2300.4250.125256.8756.750245.172gpkg PNG852'880/29'2301.4283.875296.40612.625271.250gpkg WEBP52'880/29'2300.3330.238348.10973.534256.703gpkg pyramid_JPEG52'880/29'2300.51.0093.4062.3970.688gpkg pyramid_PNG52'880/29'2303.01.2083.2812.0730.688gpkg pyramid_PNG_JPEG52'880/29'2300.61.4914.3442.8531.016gpkg pyramid_PNG852'880/29'2301.61.5084.3752.8670.969gpkg pyramid_WEBP52'880/29'2300.41.3334.9063.5730.766JPEG200052'880/29'2301.113.888136.109122.2220.219COG DEFLATE52'880/29'2303.6264.427273.09425.411239.016COG_JPEG52'880/29'2301.014.778131.172116.3941.734tif52'880/29'2306.42.3676.7344.3671.672MBT52'880/29'2304.40.4694.6414.1710Comparison of file size and rendering speed of different raster formats. “Total” columns are rendering times in [s]. Lower file size is more storage friendly, lower Total_avg is more performant.

Analysis

File size

The Geopackage WEBP (with and without pyramid) has the best result for file size, but it is not _yet_supported by QField (from 1.6) and is only slightly smaller than the JPEG variant.

Plain GeoTiff, MBTiles, Cloud Optimized GeoTIFF (COG - DEFLATE mode) and Geopackages with PNG generate by far the largest file sizes (up to 20x larger) and are thus not recommended.

Rendering speed

MBTiles are on average double as fast as JPEG Geopackages with pyramids which in turn are more than double as fast as GeoTIFF and 15x faster than COG.
Geopackages without pyramids are 200 to 400 times slower.

Conclusion

Even though MBTiles render faster than the Geopackage pyramid JPEG, they come with an almost 10x bigger storage requirement which makes us say that the best offline raster format supported by QField is Geopackage pyramid JPEG or if you need transparency and slightly smaller files Geopackage pyramid WebP.

If you need transparency before QField 1.6, the best results are achieved with Geopackage pyramid PNG_JPEG.

What a year’s start! After a very packed December publishing all the QGIS on the road videos and quietly releasing QField 1.3 - Ben Nevis we could have gone and relaxed over the holidays. But since we love QField so much we immediately started working on the next iteration. Now, after an intensive testing period, we are proud to announce the release of QField 1.4 - Olavtoppen.

Olavtoppen!? yes, the highest point of Bouvet Island, the remotest island on Earth. And sure enough, QField would follow you there!

As usual, get it on play store or download it from GitHub.

QField Crowdfunding Campaign

Before digging into all the new goodness that you will find in QField 1.4, let’s get a big “Thanks” out to everybody who supported our crowdfunding campaign for improved camera support and all our customers that agreed to open source the work we did for them.

If you like QField, want a new feature or would like to support the project, don’t hesitate to get in touch with us.

Usability enhancements

In QField 1.2 we started to improve on the usability of the user interface. We are constantly working on this with a usability expert to get the user interface to be even more appealing and user-friendly.

Besides lots of clean-up and polishing, QField received two major improvements, a portrait mode and a new welcome screen with recent projects.

Welcome screen with recent projects

QField is all about efficiency. While favourites folders in the file selector already give a great productivity boost, very often we work with the same 3-4 projects. This is why we redesigned the welcome screen to list the last five project used. And if you look carefully you might get a hint of what will be coming soon…

Portrait mode

QField now flawlessly works in portrait mode. We heard you say you needed a comfortable way to work in portrait mode, especially on smartphones. QField forms and button placements are now optimized to be easy to use with your thumbs.

New features

We keep on listening to your feedback and prioritize new features based on it. We did implement some minor features like allowing hiding legend nodes and printing to PDF using the current extent. But this time’s superstars are three highly expected features: Splitting of geometries, compass integration and, yes you guessed right, native camera and gallery app support!

Split Features

A new editing tool is available that allows for splitting existing features. This adds an even more powerful operation to an already impressive geometry editing tools set.

Compass integration

A long-awaited feature! QField now shows you on-screen in which direction you are looking, walking, driving, flying or warping direction. This makes it much easier and more pleasant to navigate in the field.

Native Camera and Gallery

It is now possible to use your favourite camera app so that you have more control over how pictures are taken. It is also possible to select pictures which are already on your device by using the new gallery selector.

Pro Tip: You can use any camera app. For example, you can use the open camera app to create geotagged photos if your preinstalled system camera doesn’t save positioning information in EXIF data.

Pro Tip 2: You can use an image annotation app to add notes, sketches, drawings and so on to your images and then choose them from QField via the add from gallery button.

Antenna Height Correction

For high precision measurements, it’s possible to compensate your altitude by a fixed antenna height. This will then automatically adjust all the digitised altitude values.

JPEG 2000

Support for JPEG 2000 raster datasets was added. This lossy format offers a compression rate at par with proprietary formats like ECW or Mr SID.

Pro Tip: save your base maps in JPEG 2000 to save storage.

New Languages

Thanks to the hard work of our community, QField is now also available in Turkish and Japanese.

New packages

You say: wow that’s a lot! We say: there is more :)
We have upgraded our whole building infrastructure so that you can comfortably get even more QField goodness without having to uninstall your production ready QField.

Automated master builds

After each pull request is merged into our master code, a new package is created and automatically published on the playstore in a dedicated app called QField for QGIS - Unstable (Early Access). Installing this app will allow you to always have the latest build of QField for testing and giving feedback. On your device, this app is completely separated from the production-ready QField and has a distinctive black icon so that you do not confuse it.

Pull request builds

QField is an extremely active project, and as you see we develop multiple functionalities and fixes at the same time. If you’re particularly interested in one of this, our continuous integration fairy builds and publishes new packages automatically at each commit directly to the pull request you are interested in. To see what we are currently working on, have a look at the pull request overview page.

Experimental Windows builds

Last but definitely not least, we’ve set up an Azure CI infrastructure to build QField for windows. For now, we still consider this experimental but we already had some very successful testing. If you are interested in testing out QField for windows you can get it here, remember it is experimental so don’t use it in production yet and give us as much feedback as possible :)

What’s next?

As you can imagine we’ve had a very busy start of 2020, but even more is to come soon with the next releases of QField. We’d like to thank again all companies and individuals that actively use QField and that invest in making QField even better. If you feel QField misses something you need or would like to support the project, don’t hesitate to get in touch with us.

Let’s get straight to the point

It’s official, QField for QGIS 1.0 is out!

Get it while it’s hot on the Playstore ( qfield.org/get) or on GitHub

We are incredibly pleased and proud of just having released such a jewel and are convinced that, thanks to all its features and conscious design choices, QField will make your field digitizing work much more efficient and pleasant.

Packed with loads of useful features like online and offline features digitizing, geometry and attributes editing, attribute search, powerful forms, theme switching, GPS support, camera integration and much more, QField is the powerful tool for those who need to edit on the go and would like to avoid standing in the swamp with a laptop or paper charts.

Let’s see what makes QField probably[su_tooltip style=“bootstrap” rounded=“yes” position=“top” content=“We might be biased, but we do believe it”]*[/su_tooltip] the best mobile GIS in the world.

Work efficiently

QField focuses on efficiently getting GIS field work done and combines a minimal design with sophisticated technology to get data from the field to the office in a comfortable and easy way.

Fast and reactive

Thanks to the underlying QGIS engine and a lot of optimizations, QField is powerful and snappy. Even with complex projects, QField is a joy to work with.

Easy handling

Conscious design choices and a continuous focus on a minimal user interface drive QField’s development. This allows us to deliver a product wich is uncluttered and extremly user-friendly

Quickly digitise

Allowing a seamless digitizing experience is a paramount goal of QField. Thanks to a cleverly designed adaptive user interface and specific features like real-time attribute checks and snapping support, QField allows its users to be extremely time efficient.

Unmatched feature set

To be the best, you need to be clever but also skillful.

QField’s efficiency is matched only by its featureset that allows its users to make the most out of their fieldwork time.

Powerful cartography combined with full text search

The beauty of GIS is that maps are dynamic. Layers can individually be shown and hidden and information can be presented more or less prominently based on the task at hand. QField supports the endless styling possibilities offered by QGIS and thanks to a well placed theme switcher you can change the looks of the entire project with a single click. For even more customizability, QField allows hiding and showing layers by simply long-pressing on the layer name.

Furthermore, QField boasts a fully configurable attribute text search that will allow you to geolocate and edit that exact object you were looking for.

Geometry editing

Editing Geometries on the field is probably the most complex task an operator has to deal with. QField simplifies this process through an adaptive toolbar that appears only when necessary, snapping support and a crosshair digitizer.

Thanks to these enhancements, QField allows reducing the error rate significantly.

Support for high precision GNSS

Simple internal GPS accuracy might be enough for basic projects but cadastral surveying and other high accuracy digitizations have much higher requirements. QFields natively listens to the Android location services so it can take advantage of the best location provided by external devices.

Generate PDF

Thanks to QField’s native support for generating PDFs based on QGIS’s print layouts, your on the fly daily report map is just one click away.

Intuitive project chooser

When dealing with multiple projects, quickly being able to switch between them is key. QField comes with a beautiful file selector with favorite directories (long press on a folder to add it to the favorites and long press on the favorites list to remove it) and an automatic list of the last three opened projects that will save you heaps of time while looking for your projects.

Your data - Your decisions

QField does not impose any constraint on the data model, it is your data and you decide what they should look like and what values are acceptable. QField can enforce constraints for you and you can choose among various type of widgets to represent your data. QGIS will preconfigure some field types automatically, all you’ll have then to do is tweak the settings if you want and your project is ready for mobile prime time. Our documentation has all the information you need.

Extends your Geo Data Infrastructure seamlessly

QField uses QGIS to set up maps and forms so it automatically supports a wide variety of data formats. Thanks to this, you can comfortably prepare your project once and then deploy it everywhere. And since QGIS also has a server component, your project can be served on a WebGIS with the very same beautiful looks.

In fact you can see this exact infrastructure up and running under demo.qfield.org and with the “online_survey.qgs” project included in the QField demo projects.

Synchronize with WiFi, Cable or Network

You can synchronize your project and data (in case you are not using a centralized online database) using various methods thanks to our QFieldSync plugin.

Future cloud integration

In the near future we will add a cloud synchronization functionality, so that you will be able to seamlessly manage your project online and have them automatically deployed to your devices.

Installing and contributing

You can easily install QField using the Playstore ( qfield.org/get), find out more on the documentation site ( qfield.org), watch some demo videos on our channel ( qfield.org/demo) and report problems to our issues tracking system ( qfield.org/issues). Please note that the Playstore update can take some hours to roll out and if you had installed a version directly from GitHub, you might have to uninstall it to get the latest Playstore update.

QField, like QGIS, is an open source project. Everyone is welcome to contribute to making the product even better – whether it is with financial support, translation, documentation work, enthusiastic programming or visionary ideas.

We would like to thank our fantastic community for all the great translations, documentations, bug reports and general feedback they gave us. Thanks to all this, we were able to fix plenty of bugs, address performance issues and even add some super cool new features.

Development and deployment services

As masterminds behind QField and core contributor to QGIS, we are the perfect partner for your project. If you want to help us build a better QField or QGIS, or if you need any services related to the whole QGIS stack, don’t hesitate to contact us.

OPENGIS.ch

OPENGIS.ch helps you setting up your spatial data infrastructure based on seamlessly integrated desktop, web, and mobile components.
We support your team in planning, developing, deploying and running your infrastructure. Thanks to several senior geodata infrastructure experts, QGIS core developers and the makers of the mobile data acquisition solution QField, OPENGIS.ch has all it takes to make your project a success. OPENGIS.ch is known for its commitment to high-quality products and its continuous efforts to improve the open source ecosystem.

\* We might be biased, but we do believe it