Abstract
Mapping the environment is necessary for navigation, planning and manipulation. In this paper, a fusion framework (as data-in-decision-out) is introduced for a 2D LIDAR and a 3D ultrasonic sensor to achieve three-dimensional mapping without expensive 3D LiDAR scanner or visual processing. Two sensor models are proposed for the two sensors used for map updating. Furthermore, 2D/3D map representations are discussed for our fusion approach. We also compare different probabilistic fusion methods and discuss criterias for choosing appropriate methods. Experiments are carried out with a real ground robot platform in an indoor environment. The 2D and 3D map results demonstrate that our approach is able to show the surrounding in more details. Sensor fusion provides a better estimation of the environment and the ego-pose whilst lowering the necessary resources. This gives the robot’s perception of the environment more information by using only one additional low-cost 3D ultrasonic sensor. This is especially important for robust and light-weight robots with limited resources.
Highlights
Solutions for mapping problems for indoor and outdoor robots were first developed in 1989 [1]
Making a map usually requires solving a simultaneous localization and mapping (SLAM) problem, where mapping and localization run in parallel and are dependent on each other
This study systematically reviews the techniques for sensor fusion, aiming to provide a method for improving 2D and 3D map representations
Summary
Solutions for mapping problems for indoor and outdoor robots were first developed in 1989 [1]. Since they have played a big role in, e.g., the automotive industry [2]. One of the challenges when using 2D sensors is navigating around drop-offs or cliffs, known as negative obstacles. Another challenge is recognizing obstacles that are out of view of 2D sensors. The methodological approach taken in this study is a mixed methodology based on studying and comparing different data fusing techniques, map representations and sensor models
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
