Deploying a kiosk using Windows Autopilot (2024)

First published on TechNet on Jun 07, 2018
In today’s Tech Community blog , we talk about a variety of new Autopilot features. For the Autopilot self-deploying mode, I thought it would be useful to get into more of the specifics of how to deploy a kiosk with Autopilot, where the end result is a device that is configured to automatically log in and run a specific kiosk app (in this case, the new Kiosk Browser app configured to automatically load a specific web page).

Let’s start with some specific requirements before you get too far:

  • The device must have a physical TPM 2.0 chip. Devices with virtual TPMs (e.g. Hyper-V VMs) or those with TPM 1.2 chips won’t work with self-deploying mode.

  • The device must be running Windows 10 version 1809 or later. (If you try this with Windows 10 1803, it won’t work very well – it’s only supported with these later builds.)

With that out of the way, let’s get into the specific steps.

Step 1: Create Autopilot profile

Let’s start off on the Autopilot side. We first need to create an Autopilot profile for “Self-deploying” mode. So let’s navigate in the Azure Portal to “Intune –> Device Enrollment –> Windows enrollment –> Deployment Profiles.” From there, you can create a new profile that specifies “Self-deploying”:

Deploying a kiosk using Windows Autopilot (1)

Configure the appropriate settings on that profile:

Deploying a kiosk using Windows Autopilot (2)

Notice that you can specify a “Language (Region)” setting that can automate the initial prompts in OOBE – this only works for wired Ethernet connections though, because the Autopilot settings can’t be downloaded until there is a network connection in place.

Step 2: Assign Autopilot profile

Intune now uses Azure AD groups to assign Autopilot profiles to devices. So to use the Autopilot profile that we just created, we need to first create an Azure AD group that can be used for that assignment. Navigate to “Azure Active Directory –> Groups” and create a new group. In my case, I created a “Kiosk Devices” group:

Deploying a kiosk using Windows Autopilot (3)

Now go back to the Autopilot profile that you created before, and click on “Assignments.” Click the “Select groups” button and find the group that was just created:

Deploying a kiosk using Windows Autopilot (4)

Click “Select” then “Save.” Now, any device added to the group will automatically get this Autopilot profile.

Step 3: Add a device

To do a “Self-deploying” device, we need one that meets the requirements: It must have a TPM 2.0 chip (and it must be a physical device, a Hyper-V VM won’t work), and should be running Windows 10 1809 or later. You can gather the hardware hash from it using the Get-WindowsAutoPilotInfo script, then import it via the "Intune –> Device enrollment –> Windows enrollment –> Devices” node.

After that import completes (it will take a few minutes), not only will there be an entry in the list of Autopilot devices, but there will also be a new Azure AD object created for the device. If you go to “Azure Active Directory –> Devices” you’ll see the device in the list. The device will be named using the serial number of the device, and will be shown as disabled. When the device is actually deployed, you’ll see the object renamed to reflect the computer name (instead of the serial number) and it will then be enabled.

Now let’s add the device to the Azure AD group that was created earlier. Find the group (“Azure Active Directory –> Groups”), click to see its details, and then click “Members.” Click “Add members” and select the device you imported:

Deploying a kiosk using Windows Autopilot (5)

Then click “Select” to add it. After a few minutes, Intune will assign the Autopilot profile to the device; you can confirm that the assignment is complete via the Autopilot devices list (“Intune –> Device enrollment –> Windows enrollment –> Devices”).

Step 4: Get and deploy the Kiosk Browser app

To have a kiosk that runs a single app, you need a single app. Fortunately, we now publish a Kiosk Browser app that works nicely, and more importantly it can be easily configured via Intune as well. But first, we need to get that app. It’s available in the Microsoft Store for Business, so you need to acquire it from there. (If you haven’t yet integrated the Microsoft Store for Business with Intune, see the Intune docs for setting that up . And make sure you have enabled offline licenses via the “Show offline apps” slider on the Setting page in MSfB.)

Sign into the store via . Search for “Kiosk Browser” and make sure you choose the right one. Specify “Offline” for the license type and then click “Get the app.” (If you already have the app with an offline license, the button will say “Manage” – that’s fine, it just means you’ve done this step already. And if you don’t see the “Offline” choice see the previous note about enabling offline licenses.)

Now that the app has been added to your collection, you can go back into Intune and initiate a sync with the Microsoft Store for Business to get it to show up quickly. Navigate to “Intune –> Mobile apps –> Microsoft Store for Business” and then click the “Sync” button. That might take a couple of minutes, but after the sync completes, you’ll see the app in the list at “Intune –> Mobile apps –> Apps.” Select the app to see its details (it should show “Yes” under “Supports device licensing”), then click “Assignments.” Click “Add group” and change the assignment type to “Required.” Click “Included groups” and then “Select groups to include” and choose the kiosk device group that you created in Azure AD earlier:

Deploying a kiosk using Windows Autopilot (6)

Then click “Select.” In the “Licensing Type” drop-down, choose “Device licensing" then click OK:

Deploying a kiosk using Windows Autopilot (7)

Then click “OK” again to add the group, and “Save” to save the new assignment.

Step 5: Create and deploy the kiosk configuration

Now we need to specify how the kiosk should be configured. To do that, navigate to “Intune –> Device configuration –> Profiles” and click “Create profile”. Give it a name (e.g. “Kiosk Configuration”), choose a platform of “Windows 10 and later” and a profile type of “Kiosk (Preview)”. You will then see the available setting categories:

Deploying a kiosk using Windows Autopilot (8)

Click the “Kiosk” setting to see the “one” setting. As you can see, there’s a little more that needs to be done:

Deploying a kiosk using Windows Autopilot (9)

So click “Add” to create a kiosk configuration. Give it a name (e.g. “Kiosk Browser”) and choose “Single full-screen app kiosk” from the drop-down, which then shows additional options:

Deploying a kiosk using Windows Autopilot (10)

If you’ve ever configured a kiosk on Windows 10, you might remember that you need to specify an AUMID for the app, which is a UWP concept that combines the app package family name with an entry point – basically, a gibberish string that you should never have to type. Fortunately, Intune will let you pick an app from a list instead, which is much easier. So under the “*Managed Intune app to use for kiosk mode” click the “Select a managed app” link to choose an app:

Deploying a kiosk using Windows Autopilot (11)

Search for the Kiosk Browser app and then click on it to accept it. (Notice that I have two: one is an online license, one is offline. Either will work here, since we’re just using the app to get the AUMID. But in the previous step when we acquired and deployed the app, it needs to be an offline app for this scenario to work.) Then click OK. Next, select “Autologon” as the user account type. This will automatically create a local account on the device and configure it to automatically log on and run the specified app. Click “OK” to create the configuration, and then “OK” again to complete that settings category.

Next, click on the “Kiosk web browser” category to see the available Kiosk Browser settings:

Deploying a kiosk using Windows Autopilot (12)

At a minimum, fill in the “Default home page URL” setting to point to an appropriate web page. Depending on that page, you may want to populate other settings (e.g. restrict where you can navigate to from that page). You can also control the UI in the browser app itself, e.g. show or hide navigation buttons, and configure when the browser should automatically refresh. Click “OK” to commit these settings, “OK” to commit both categories, and “Create” to create the configuration profile.

Next, click on “Assignments” for that newly-created profile. Then click “Select groups to include” and select the same kiosk devices group that was created earlier:

Deploying a kiosk using Windows Autopilot (13)

Then click “Select” to confirm that group selection, and “Save” to save the assignment.

Step 6: Deploy

Reset the device that you used in step #3. When it starts OOBE, what you see depends on the device. If it has an internet connection, it may skip the language, locale, and keyboard selection screens (if you configured a language/locale in the Autopilot profile). If it needs a Wi-fi connection, you’ll have to do that manually. It will then get to a screen that will progress automatically, telling you that it is deploying the device.

When the Autopilot provisioning process completes, you should see the device automatically log on and run the Kiosk Browser app, which will navigate to the configured web page.

Deploying a kiosk using Windows Autopilot (2024)
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