This sample shows how to use spatially correlated color and depth cameras and the depth frames to map image pixels from one camera to another using a [DepthCorrelatedCoordinateMapper] (https://msdn.microsoft.com/library/windows/apps/windows.media.devices.core.depthcorrelatedcoordinatemapper.aspx), as well as decoding a vendor-specific media frame layout with a [BufferMediaFrame] (https://msdn.microsoft.com/library/windows/apps/Windows.Media.Capture.Frames.BufferMediaFrame.aspx).
This sample demonstrates how to:
- Find cameras which support color, depth and pose tracking respectively.
- Create FrameReaders and read frames from multiple sources concurrently.
- Map depth camera's pixels onto correlated color camera.
- Process color and depth frames pixel by pixel to produce a background removal effect.
- Detect if a vendor-specific camera source exist using a vendor-specific sub type. In this sample, we look for a pose tracking stream.
- How to use vendor-specific buffer layout to decode a 1D BufferMediaFrame.
- Overlay skeletal tracking points to color camera coodinate system.
Use the DepthCorrelatedCoordinateMapper class to map depth space pixels to color space pixels.
Use the camera intrinsics of the color camera to project skeletal tracking points on top of the color image.
With new BufferMediaFrame in media capture APIs, cameras can also support 1D media frame format. Using the "Perception" major media type and a vendor's custom sub media type, a camera in this sample can expose a PoseTrackingFrame and the app can overlay skeletal tracking points.
###Vendor specific media frame format
This sample also demonstrate how camera vendors can use a WinRT library to wrap vendor-specific camera frame layout into WinRT class so that apps can easily consume the vendor specific data with same coding patterns as Windows APIs.
Note The Windows universal samples for Windows 10 require Visual Studio 2015 Update 2 and Windows SDK version 14393 or above to build.
To obtain information about Windows 10 development, go to the Windows Dev Center.
Windows.Media.Capture.Frames namespace
Windows.Media.Devices.Core.DepthCorrelatedCoordinateMapper
Windows.Media.Devices.Core.CameraIntrinsics
Client: Windows 10 build 14393
Camera: Correlated color and depth camera (For example a Kinect V2 sensor)
- If you download the samples ZIP, be sure to unzip the entire archive, not just the folder with the sample you want to build.
- Start Microsoft Visual Studio 2015 and select File > Open > Project/Solution.
- Starting in the folder where you unzipped the samples, go to the Samples subfolder, then the subfolder for this specific sample, then the subfolder for your preferred language (C++, C#, or JavaScript). Double-click the Visual Studio 2015 Solution (.sln) file.
- Press Ctrl+Shift+B, or select Build > Build Solution.
The next steps depend on whether you just want to deploy the sample or you want to both deploy and run it.
- To debug the sample and then run it, follow the steps listed above to connect your developer-unlocked Microsoft HoloLens, then press F5 or select Debug > Start Debugging. To run the sample without debugging, press Ctrl+F5 or select Debug > Start Without Debugging.