Alexander Schaefer

Albert-Ludwigs-Universität Freiburg Technische Fakultät Autonome Intelligente Systeme Georges-Köhler-Allee 080 D-79110 Freiburg i. Br., Germany Office:   01 022 alexander.schaefer@informatik.uni-freiburg.de Phone:   +49 761 203-8176

About me

• 07/2015 - 03/2020: Ph.D. student in the Autonomous Intelligent Systems group of Prof. Dr. Wolfram Burgard
• 09/2018 - 12/2018: Research Intern, Nvidia AI Robotics Research Lab, Seattle, WA, USA
• 02/2013 - 06/2015: Research Manager, Fraunhofer Institute for Factory Operation and Automation, Magdeburg, Germany
• 10/2006 - 11/2012: Dipl.-Ing. in Mechanical Engineering, Munich University of Technology (TUM), Germany

Research Projects

• Samsung Global Research Outreach Program focusing on camera-based and lidar-based localization of cars
• EU project Flourish featuring the Deepfield Robotics BoniRob

Publications

• Alexander Schaefer
  Highly Accurate Lidar-Based Mapping and Localization for Mobile Robots
  Ph.D. thesis, University of Freiburg, Department of Computer Science, 2019
  Download BibTeX
• Alexander Schaefer, Daniel Büscher, Johan Vertens, Lukas Luft, Wolfram Burgard
  Long-Term Urban Vehicle Localization Using Pole Landmarks Extracted from 3-D Lidar Scans
  European Conference on Mobile Robotics (ECMR), Prague, Czech Republic, 2019
  Download BibTeX
• Lukas Luft, Federico Boniardi, Alexander Schaefer, Daniel Büscher, Wolfram Burgard
  On the Bayes Filter for Shared Autonomy
  IEEE/RSJ Robotics and Automation Letters (RA-L), November 2019
  Presented at IROS 2019 in Macao, China
  Download BibTeX
• Alexander Schaefer, Johan Vertens, Daniel Büscher, Wolfram Burgard
  A Maximum Likelihood Approach to Extract Finite Planes from 3-D Laser Scans
  Proc. of the IEEE Int. Conf. on Robotics and Automation (ICRA), Montreal, Canada, 2019
  Download BibTeX
• Alexander Schaefer, Daniel Büscher, Lukas Luft, Wolfram Burgard
  A Maximum Likelihood Approach to Extract Polylines from 2-D Laser Range Scans
  Proc. of the IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS), Madrid, Spain, 2018
  Download BibTeX
• Stefan Glaser, Alexander Schaefer, Wolfram Burgard
  Mapping and Localization using Multispectral Imaging of the Soil
  Workshop on Unconventional Sensing and Processing for Robotic Visual Perception, IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS), Madrid, Spain, 2018
  Download BibTeX
• Alexander Schaefer, Lukas Luft, Wolfram Burgard
  DCT maps: Compact Differentiable Lidar Maps Based on the Cosine Transform
  IEEE Robotics and Automation Letters (RA-L), Volume 3, Issue 2, April 2018
  Presented at ICRA 2018 in Brisbane, Australia
  Download BibTeX
• Lukas Luft, Alexander Schaefer, Tobias Schubert, Wolfram Burgard
  Detecting changes in the environment based on full posterior distributions over real-valued grid maps
  IEEE Robotics and Automation Letters (RA-L), Volume 3, Issue 2, April 2018
  Presented at ICRA 2018 in Brisbane, Australia
  Download BibTeX
• Lukas Luft, Alexander Schaefer, Tobias Schubert, Wolfram Burgard
  Closed-Form Full Map Posteriors for Robot Localization with Lidar Sensors
  Proc. of the IEEE Int. Conf. on Intelligent Robots and Systems (IROS), Vancouver, BC, Canada, 2017
  Download BibTeX
• Florian Kraemer, Alexander Schaefer, Andreas Eitel, Johan Vertens, Wolfram Burgard},
  From Plants to Landmarks: Time-invariant Plant Localization that uses Deep Pose Regression in Agricultural Fields
  Workshop on Agri-Food Robotics, IEEE/RSJ Int. Conf. on Intelligent Robots and Systems (IROS), Vancouver, BC, Canada, 2017
  Download BibTeX
• Nived Chebrolu, Philipp Lottes, Alexander Schaefer, Wera Winterhalter, Wolfram Burgard, Cyrill Stachniss
  Agricultural Robot Dataset for Plant Classification, Localization, and Mapping on Sugar Beet Fields
  The Internatiounal Journal of Robotics Research (IJRR), 2017
  Download BibTeX
• Alexander Schaefer, Lukas Luft, Wolfram Burgard
  An Analytical Lidar Sensor Model Based on Ray Path Information
  IEEE Robotics and Automation Letters (RA-L), Volume 2, Issue 3, July 2017
  Download BibTeX

Supervised Theses

• Maximilian Roth
  Autonomous Vehicle Localisation Using LIDAR and OpenStreetMaps 3D Facades
• Stefan Glaser
  Mapping and Localization using Multispectral Images of the Soil in Tilled Agricultural Environments
• Florian Kraemer
  From Plants to Landmarks: Deep Time-invariant Plant Localization in Agricultural Fields
• Janosch Dobler
  Symmetry-Based Object Detection and Segmentation in Point Clouds Acquired in Crop Fields

Teaching

• 10/2015 - 04/2018: supervisor, lecture Robot Mapping
• 10/2007 - 04/2011: lecturer and supervisor, lecture Object-Oriented Software Engineering, Munich University of Technology