PST SDK
5.0.3.0-7c6cbb9
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The PST SDK can be used to receive tracking results and images from a PST Tracker. Implementing the SDK is done by creating an instance of the PSTech::pstsdk::Tracker class. This class provides access to settings on the PST Tracker and enables its user to receive tracking data.
In order to use the PST SDK in an application, include the header file "pst-sdk.h" in your project. To handle exceptions add the "TrackerExceptions.h" header file as well. Both files can be found in the "Development\include" directory. The application is dynamically linked using the "pstsdk.lib" library and the "pstsdk.dll" binary file which can be found in the "Development\Redist" directory. Debug builds should be linked to the "pstsdkD.lib" library and use the "pstsdkD.dll" binary file which can be found in the "Development\debug_no_redist" directory. In order to run the application, copy all required binary dependencies from the "Development\Redist" or "Development\debug_no_redist" directory to the location of the application. A list of files to use for specific use-cases can be found in the Redistribution section.
Most important runtime settings for the PST Tracker (e.g. setting frame rate and exposure, enabling/disabling tracking targets) can be controlled directly from the PST SDK. However, some steps that are required in order to start working with a new PST Tracker can currently not be performed using the SDK. The main steps are retrieving calibration information and defining tracking targets.
Each time a PST Tracker is connected to a new computer, tracker calibration information needs to be provided. When the PSTech::pstsdk::Tracker object is initialized it checks whether or not calibration information can be found in the specified configuration directory. If no calibration information can be found, a message specifying the download locations of the required files will be printed on the command line. It is also possible to call PSTech::pstsdk::Tracker::GetUncalibratedCameraUrls() to receive a vector of download URLs. A single PST Tracker requires two calibration files. The download URL of these files takes the following form: http://www.ps-tech.com/pstsw/calibrations/iris_####.cam, where #### is the identification number of each camera. When the PST Tracker that is going to be used is known on forehand, tracker calibration files can be provided by copying the right files from any medium into the configuration directory.
A new installation of the PST software will not contain any tracking targets. In order to start tracking, tracking targets need to be added to the model database. This can be done in three different ways.
When tracking target models are added using the PST-Client, a shared memory pipeline needs to be available to connect the PST-Client to the PST Tracker. Shared memory access can be enabled using the C++ API by calling PSTech::pstsdk::Tracker::EnableSharedMemory(). When the application implementing the PST SDK is run with administrator privileges, calling this function will allow the PST-Client to directly connect to the application. This way, tracking target model data will directly be saved to the model database file set in the application.
Alternatively, the PST-Server application can be started to allow the PST-Client to connect to the PST Tracker.
The PST-Server will store its model database at C:\ProgramData\PS-Tech\PST Iris\models.db. The application implementing the PST SDK can either use the same configuration directory and model database file, or the model database file can be copied to the configuration directory used by the application.
A clear example of how to use the PST SDK can be found in the Examples section of this documentation. The first step of connecting to the PST Tracker is creating an instance of the PSTech::pstsdk::Tracker object. It is recommended to instantiate the object as a shared pointer in the global scope, since this will make it possible to ensure safe and clean termination of the PST Tracker on program exit. More on this topic will be discussed in the section Safe Tracker Termination.
Tracking data can be received by implementing the PSTech::pstsdk::Listener class and registering it as a listener to the instantiated PSTech::pstsdk::Tracker object using PSTech::pstsdk::Tracker::AddTrackerListener(). After enabling the required tracking targets using PSTech::pstsdk::Tracker::SetTargetStatus() and calling PSTech::pstsdk::Tracker::Start(), the PSTech::pstsdk::Listener::OnTrackerData() callback function will start receiving tracking data in the form of PSTech::pstsdk::TrackerData structs. These structs contain the time stamp of the recorded data, a recording id, a list of all detected 3D points that could not be matched to any of the activated tracking targets and a list of detected tracking targets and their poses.
While tracking is in progress, settings like the frame rate and exposure can be adjusted using their corresponding functions. It is also possible to change which tracking targets are active.
Settings controlling the amount of filtering that is applied to the tracking data can be adjusted at all times. The filtering strength for the position and orientation can be adjusted independently using PSTech::pstsdk::Tracker::SetPositionFilter() and PSTech::pstsdk::Tracker::SetOrientationFilter() respectively. Filtering using the DESP filter is enabled by default while the tremor filter is disabled by default.
It is possible to retrieve image data from the cameras inside the PST Tracker. In order to do so, image transfer has to be enabled on the PST Tracker by calling PSTech::pstsdk::Tracker::EnableImageTransfer().
When image transfer has been enabled, images can be requested by calling PSTech::pstsdk::Tracker::GetImage(). Images are provided as a PSTech::pstsdk::Image struct containing the width and height of the images in pixels and a vector containing pointers to the first pixel of the left and right camera image. Images are gray scale and provided as a unsigned char array without memory alignment.
In order to keep receiving images, a call to PSTech::pstsdk::Tracker::GetImage() has to be made at least every 4 seconds. For performance reasons, image transfer will be automatically disabled after no images have been requested for 4 seconds.
Tracking results are reported relative to a predefined right-handed Cartesian coordinate system, called the reference system. The default reference system is located at 1 meter from the PST Tracker. It is oriented such that the Z-axis points away from the PST tracker and the X-axis is parallel to the PST tracker. The reference system can be changed by the user and is stored as a transformation matrix in a file called otracker.ref located in the configuration directory. Setting the reference system can be done in several ways.
The PST-Client can be used to set the reference system according to the methods described in section Tracking Target Setup.
The PST Tracking systems are sensitive hardware. Therefore, it is important that the PST Tracker is correctly terminated every time an application connecting to the PST Tracker is closed. Failure to do so might result in unpredictable system behavior and could lead to computer crashes.
In order to safely terminate the connection to the PST Tracker, it is important that the PSTech::pstsdk::Tracker::Shutdown() function is called before the application closes. The destructor of the PSTech::pstsdk::Tracker class will call PSTech::pstsdk::Tracker::Shutdown() automatically, but there are cases in which the destructor might not be called properly. This could happen in case of an application crash, or because the console running the application is closed.
The first cause can be mitigated in most cases by using a try-catch block around the code. Be aware that a number of PST SDK functions can throw PSTech::TrackerException type errors that might need to be caught.
The second case should be caught by implementing the console exit handler. On Windows, this is done by implementing the SetConsoleCtrlHandler() function from the Windows API. The callback function registered as the console handler should call PSTech::pstsdk::Tracker::Shutdown(). Because this function will not be called in the scope of the main function, the PSTech::pstsdk::Tracker object will need to be available from within the global scope. It is recommended to use a shared pointer to store the object, since this will ensure proper destruction of the PSTech::pstsdk::Tracker object in any unhandled case where the application closes without calling PSTech::pstsdk::Tracker::Shutdown().
Taking the above mentioned precautions should take care of most cases where disconnecting from the PST Tracker can result in unwanted behavior.