You can get a comprehensive rundown over at Microsoft. Enabling Windows IoT Remote Server – a highly recommended step during debugging and set up.Selecting output screen resolution (requires a restart).You can browse to it and log in to the administrator account using the default password will obviously want to change that default password immediately and the web configuration will allow that in addition to: Windows creates a web configuration page on port 8080. You should also note the assigned IP address on the home page. Activate Bluetooth (RasPi 3 on-board Bluetooth chip not supported as of May 2016).Connect to a broadcasted WiFi network (see below for tips on non-broadcast SSIDs).The Settings screen will allow you to do the following (as of May 2016): You can access some basic settings from this default startup app. Alternatively, you can also use the Powershell set-date command to manually set the date – useful if your device is not network-enabled. This is slightly annoying since I don’t have a real-time clock on my Pi. It will instead query a time server automatically, but I have found that it usually takes about 15 minutes for it to correct itself. This is especially important as there is no way to set the date/time directly. Since this is an IoT device I assume you have a network cable plugged in. There are some basic options you can change from within the default startup app.
You can access the Pi’s web configuration page from almost any device, but certain steps require Powershell.
#Windows 10 iot core for raspberry pi 3 full
Windows 10 IoT is free, but you need a full Windows 10 desktop/laptop environment to get the most out of it. These tips should apply to any of the boards supported by Windows 10 IoT, but I will focus on the Raspberry Pi 3. Configuring Windows 10 IoT is the next logical step after OS installation.