QGIS (previously known as Quantum GIS) is the cross-platform free and open-source desktop geographic information system (GIS) app that provides data viewing, editing and analysis. It can be used for almost any GIS application.
First of all, we need to connect survey equipment to QGIS. There are two simple ways. One, over local network, or second by USB.
To configure the connection in QGIS, you might need to enable the GPS Information panel first. Go to the View list in the Menu bar and tick this option in the Panels field to accomplish this.
In order to connect over local network, the computer running QGIS needs to be on the same network as the rover. This can be via the rover's hotspot. This screenshot shows the reach Rover config and the QGIS config. The port number is the same as we'll enter in QGIS to find position string.
In QGIS, the color panel turns green to indicate connection when we enter in the IP address of the rover and the port number.
The second way to connect is via "serial device", actually USB. First, plug the micro USB into the opening on Rover.
Then, plug the other end into the computer usb port.
For this, the settings on your rover should be as on the screenshot below.
In QGIS, choose to connect by serial device and use the same COM port as is shown in connected devices.
Now that we are connected, we should see Reach position in QGIS.
In QGIS, we can choose from a wide range of background maps, including your own drone imagery.
The GPS panel shows status but if you want to check for the solution status it is better to keep an eye on Reachview app for that. Once we're connected and have our layers and snapping settings ready we can go to work! Adding points, lines, and polygons, based on our location.
Let's see at the feature of manually entering lines. Often we need to enter a line and then enter distances and directions based on that line, e.g. 30 m at 90 degrees relative to a given line. QGIS has a feature called CAD tools that should work for this. First, enter the line (for example, property line). Then, draw parallel or perpendicular lines from that one. This is found in the advanced digitizing panel. Here you can select start point by vertex and then begin drawing from that point at a direction relative to a selected line.
Distances and angles can be preset. Back in the office after the survey, there are options to trim, extend, fillet linework, convert points to arcs, etc. These features could be used while surveying as well. Check out the plug-in QAD.
Also check out plug-in CadTools.
Check out the tutorial for QGIS CAD tool by Klas Karlsson.
We want to thank Brent Wiebe for sharing his experience of using QGIS as survey tool with Reach.