In this quick guide, we demonstrate how to get started with the VisionLib SDK for Unity. We provide a broad overview on the Unity SDK, the workflow with VisionLib, and the structure of tracking configuration file.
There is also a step-by-step video for this tutorial on our YouTube channel:
Before you start, be sure to have the following installed or at hand:
Assets/Import Package/Custom Package..
and import the vlUnitySDK_XX.Y.Z.unitypackage
file into your empty projectVisionLib/Examples/ModelTracking/Simple
in the project navigator and open SimpleModelTracking.unity
StreamingAssets/VisionLib
folder of your Unity projectSelect the VLTracking
GameObject in the hierarchy and drag the license file from the project view in the public License File
field of the VLTrackingConfiguration
.
Start
button.The example scene lets you select your camera at start.
You should see the live camera view and a 3D model of the mini car in Unity's game window now.
If everything worked well, your game view should look like in the picture above.
For demonstration purposes, we merely superimpose the same 3D model that is used for tracking the real mini car in the live image stream. But of course, you can replace this simple augmentation by anything more complex. For this you can exploit the full range of features that Unity offers to you. In contrast to other tracking techniques, model tracking will always use the physical 3D model as a reference. As an advantage, all augmentations will appear right in place as soon as the real object is recognized and tracked in the images, because the coordinate systems of the tracking system and the created virtual content are aligned automatically.
Controlling and customizing the tracking can be done via tracking configurations. Within these JSON-formatted files, you can change tracking targets, fine-tune the tracking parameters, or specify camera or image stream inputs. There exists a pre-configured file for this quick-start demo, which you can use as a starting-point and adapt it to your needs.
For changing the 3D model you can do the following.
In order to track another model, you need:
In our case, we replace the mini car with a sports car model. To do so:
Models
folder of your project; we will use this for superimposition.StreamingAssets/VisionLib/Examples/ModelTracking
folder; this is used for tracking.Inside this folder, find the car.vl
file, create a copy and rename it (e.g. to sportsCar.vl
). This is the tracking configuration file, which is in JSON format. Please open the file in a text editor and review it there.
tracker
section, look for modelURI
and change car.obj
(which is the mini car's 3D model) to sports_car.obj
(which is the reference to the new tracking model we've copied into the folder).Please note the metric
parameter. Here, you should define in which scale your 3D model was created. In our case both, the mini car model and the new sports car, are modeled in m
. Change this to mm
or cm
, if your metrics differ.
VLTracking
GameObject and change the tracking configuration reference to your new file (e.g. sportsCar.vl
).We don't want to use the old model for visualization, but the new one instead. To do so, we need to add it to the scene.
SceneContent
, disable the Car
model.Models
folder.VLInitCamera
prefab under VLTracking
in the hierarchy.This camera defines the model's initial pose that you could see, once the Start
button was pressed. Right now, the camera is set nicely for the old mini car model. We need to change this pose, in order to fit the new model. With the camera selected, move it until you get a nice sight on the new model (have a look at the camera preview window in the image above). This position defines where your tracking — and respectively your users later on — should start working with the augmented reality.
Start
button and select a camera. The new model should now be rendered as you've defined its init pose via the VLInitCamera
.In order to understand what VisionLib's computer vision engine is doing, have a look to the AdvancedModelTracking
example and press the Debug on
button. You will now see a grey-scale image with 'jaggy' lines, representing the ongoing 3D model's edge detection. Additionally, some statistics are printed regarding tracking parameters that are defined in the tracking configuration.
Hey, hey! You just tested VisionLib's 3D model tracking and exchanged the demo model.
If this does not work with your model, we recommend reading through the following sections in order to set the parameters right for your tracking case.
Perhaps you might have noticed a warning, stating that your camera has not been calibrated. This is a crucial task, which improves the tracking experience a lot. So for the next step we do recommend calibrating your camera. Therefore, follow this tutorial: Camera Calibration.
If you want to dive a bit deeper in how to configure the model tracker, we recommend reading the detailed Model Tracker Tutorial, which shows you how to set up a scene from scratch. It also explains VisionLib's prefabs, debug options, and how to work with coordinate systems for VisionLib and Unity in detail.