Visual-Inertial SLAM Using a Monocular Camera and Detailed Map Data

Abstract: The most commonly used localisation methods, such as GPS, rely on external signals to generate an estimate of the location. There is a need of systems which are independent of external signals in order to increase the robustness of the localisation capabilities. In this thesis a visual-inertial SLAM-based localisation system which utilises detailed map, image, IMU, and odometry data, is presented and evaluated. The system utilises factor graphs through Georgia Tech Smoothing and Mapping (GTSAM) library, developed at the Georgia Institute of Technology. The thesis contributes with performance evaluations for different camera and landmark settings in a localisation system based on GTSAM. Within the visual SLAM field, the thesis also contributes with a sparse landmark selection and a low image frequency approach to the localisation problem. A variety of camera-related settings, such as image frequency and amount of visible landmarks per image, are used to evaluate the system. The findings show that the estimate improve with a higher image frequency, and does also improve if the image frequency was held constant along the tracks. Having more than one landmark per image result in a significantly better estimate. The estimate is not accurate when only using one distant landmark throughout the track, but it is significantly better if two complementary landmarks are identified briefly along the tracks. The estimate can also handle time periods where no landmarks can be identified while maintaining a good estimate.