I am working on an augmented reality application in Adobe Air. The basic functionalities to provide an augmented reality experience have been implemented and the general behaviour is as expected and wished. The only problem we are facing is some sensor inaccuracy occurring from time to time. First some information about the environment:
- App developed with Flash Builder Premium 4.7
- Adobe AIR SDK v3.7
- Gyroscope data provided by a closed-source native extension, created by Distriqt (www.distriqt.com)
- The problem appears on different Apple devices (iPad 2, 3 and mini confirmed) running different versions of iOS
The gyroscope extension mentioned earlier provided data about the orientation of the device, defined by three angles: yaw, pitch, roll. Only the yaw value is used in the application. The gyroscope fires update events with an observed sample rate of about 10 samples/s. Usually the data provided by the gyroscope is quite accurate: the objects displayed on the screen are stable and react to the user’s movements.
The problems we are facing are the following: Sometimes the yaw values start drifting slightly, even if the device is not moving. This happens slowly but fast enough to be visible. After a variable time the yaw value then brutally resets itself to a value close to the initial one (not necessarily exactly the same). The drifting may or may not stop at this moment. The yaw values given by the gyroscope extension are sometimes off by up to 15 degrees. This error can be there at the start of the application, or sometimes it appears after the gyroscope stopped drifting.
We understand the native gyroscope extension to be using some kind of complex filter bringing together compass, accelerometer and gyroscope data. Thus the problem with the yaw value being off by 15 degrees is understood as an accuracy problem with the compass. Is this realistic? Can it be improved? The drifting problem can be triggered by turning very slowly the device, and then stopping. The yaw value will usually start creeping in the opposite direction of the movement. We thought that this kind of effect might come from problems inside the native extension, but we would like to hear the opinions of specialists.
The tests were conducted far from any magnets or metallic objects in order to avoid compass interference.
Thank your for your advice