Felix Endres 論文下載

Technische Fakult¨ at
Albert-Ludwigs-Universit¨ at Freiburg

Betreuer: Prof. Dr. Wolfram Burgard

簡介：In recent years, commercially available mobile robots, that operate in indoor environments, have found their ways into private homes, of?ce environments,?and industrial?settings.They ful?ll important duties such as transportation, telepresence, and cleaning.While some tasks, such as vacuum cleaning, can be achieved with rudimentary perception, for more complex tasks sophisticated perception capabilities are fundamental for?autonomous robots.

近些年來，商業上可用的移動機器人，在室內環境中運動，已經找到了進入私人家庭、辦公環境和工廠設施的出路。它們填補了重要的任務比如交通、遠程監控和清潔。
?
?Even for the mentioned vacuum cleaning, improved perception al-
lows for substantial increases in ef?ciency. In this thesis, we investigate novel approaches
for the modelling of indoor environments for robot navigation. Being an important foun-
dation for higher level skills, a particular focus lies on simultaneous localization and
mapping (SLAM), which allows a robot to construct a model of its environment dur-
ing operation. In the context of SLAM, we develop an approach for RGB-D cameras,
that captures dense 3D maps for robot navigation. For this SLAM system, we propose
novel methods to increase the accuracy of the trajectory estimation and the robustness
against misassociations during individual motion estimates. Further, we address a major
limitation on the hardware side of RGB-D cameras, namely the limited ?eld of view. We
investigate SLAMwith multiple RGB-D cameras and develop an approach for automated
extrinsic calibration of RGB-D cameras via SLAM. We further propose an extension of
RGB-D sensors with mirrors to bisect the ?eld of view into two roughly opposite views.
While this does not increase the overall information perceived, we show that the divided
?eld of view is bene?cial in the context of SLAM. Additionally, we exploit the structural
properties of this catadioptric extension to constrain the mentioned calibration method,
such that planar motion of the robot is suf?cient for online calibration of the two views.
To autonomously access all areas in a private home or of?ce, a further key skill for robot
navigation is the operation of doors. In this context, we extend the state of the art by novel
methods for learning a model of the kinematics and dynamics of a door. We demonstrate
that the knowledge about the dynamics of a door allows the robot to accurately predict
the motion of the door from inertia. We use this ability to employ a door opening strategy
with low requirements on the dexterous workspace of the manipulator. To show the bene-
?ts of the approaches proposed in this thesis, we thoroughly evaluate them in experiments
with real robots and real sensor data. Overall, the proposed approaches lower the cost of
the sensing equipment and the required complexity of the manipulator. These factors are
particular important for commercial robots targeted at households and small businesses.

轉載于:https://www.cnblogs.com/2008nmj/p/6143639.html

總結

以上是生活随笔為你收集整理的Robot Perception for Indoor Navigation《室内导航中的机器人感知》的全部內容，希望文章能夠幫你解決所遇到的問題。

如果覺得生活随笔網站內容還不錯，歡迎將生活随笔推薦給好友。