Visual SLAM in an automotive context:
Sammanfattning
Simultaneous Localization and Mapping (SLAM)
is a technique frequently used in the area of self-driving
cars for mapping and odometry. SLAM has traditionally been
performed using laser based range finders of the light detection
and ranging (LIDAR) types. Due to the high cost of these
sensors there is currently a trend of implementing visuallybased
SLAM systems using cameras as sensory input. This
thesis explores the possibility of integrating a visual-SLAM
component into an automotive framework as well as how this
visual-SLAM compares to LIDAR based SLAM techniques.
Using a state of the art visual SLAM algorithm, ORB-SLAM2,
we implement and evaluate a modern visual-SLAM solution
within the OpenDLV framework by performing a Design
Science Research (DSR) study with the goal of implementing a
microservice containing the ORB-SLAM2 algorithm inside of
OpenDLV. The software artifact resulting from the DSR study is
then evaluated using the evaluation methodology included in the
KITTI visual odometry benchmark. Based on the results from
this evaluation we conclude that the ORB-SLAM2 algorithm
can successfully be integrated in the OpenDLV framework and
that it is a possible replacement for LIDAR-based SLAM.
Examinationsnivå
Student essay
Samlingar
Datum
2019-11-12Författare
Eiderström Swahn, Linus
Pohl, Pontus
Språk
eng