Dr.-Ing. Max Spindler

  • Ehemaliger wissenschaftlicher Mitarbeiter
  • Karlsruher Institut für Technologie (KIT)
    Institut für Mess- und Regelungstechnik
    Engler-Bunte-Ring 21
    Gebäude 40.32
    D-76131 Karlsruhe

Veröffentlichungen

Bernd Kröper, Martin Lauer, Max Spindler. Using the Ferromagnetic Fingerprint of Rails for Velocity Estimation and absolute Localization of Railway Vehicles. In 2020 European Navigation Conference (ENC), Seiten 1--10, Dresden, Germany, 2020. [ DOI ]

Max Spindler. Patentveröffentlichung: Speed Measurement Methods and Speed Measuring Arrangement, 2019. [ http ]

Max Spindler. Ferromagnetische Inhomogenitäten zur berührungslosen Bestimmung der Geschwindigkeit und gleisselektiven Position von Schienenfahrzeugen. Dissertation, Institut für Mess- und Regelungstechnik, Karlsruher Institut für Technologie (KIT), Karlsruhe, 2019. [ http ]

Max Spindler, Martin Lauer. High Accuracy Estimation of Velocity and Position for Railway Vehicles using Ferromagnetic Inhomogeneities. In 21st International Conference on Intelligent Transportation Systems (ITSC), Seiten 1202--1207, 2018. [ DOI | http ]

Hanno Winter, Volker Willert, Jürgen Adamy, Michael Leining, Max Spindler, Martin Lauer, Denis Stein, Oliver Heirich, Jörn Groos, Arne Geffert, Uwe Becker, Michael Breuer. Localization Reference Train - Sichere Ortung für den Schienenverkehr. In Proc. Scientific Railway Signalling Symp., Seiten 17--26, 2017. [ .pdf ]

Max Spindler, Denis Stein, Martin Lauer. Difference-Inductance-Sensor zur berührungslosen Geschwindigkeitsbestimmung von Zügen. In Stefan Zimmermann, Herausgeber, XXX. Messtechnisches Symposium, Seiten 193--200, Berlin, Boston, September 2016. De Gruyter. [ DOI ]

Max Spindler, Denis Stein, Martin Lauer. Low Power and Low Cost Sensor for Train Velocity Estimation. In Proceedings of the IEEE International Conference on Intelligent Rail Transportation (ICIRT), Seiten 259--264, August 2016. [ DOI ]

Denis Stein, Max Spindler, Martin Lauer. Model-based rail detection in mobile laser scanning data. In Proceedings of the IEEE Intelligent Vehicles Symposium (IV), Seiten 654--661, June 2016. [ DOI ]

Denis Stein, Max Spindler, Janina Kuper, Martin Lauer. Rail detection using lidar sensors. International Journal of Sustainable Development and Planning, 11(1):65--78, February 2016. [ DOI ]

Hansjörg Manz, Eckehard Schnieder, Denis Stein, Max Spindler, Martin Lauer, Carsten Seedorff, Arne Baudis, Uwe Becker, Julie Beugin, T.P. Khanh Nguyen, Juliette Marais. GaLoROI: Satellite based localization in railways. In Proceedings of the International Congress of Advanced Railway Engineering (IC-ARE), Seiten 322--329, March 2015.

Denis Stein, Max Spindler, Martin Lauer. Lidar sensors for detecting railway infrastructure and their usage in train-borne localization systems. November 2014. Poster: MoLaS Technology Workshop, Freiburg.

Denis Stein, Martin Lauer, Max Spindler. An analysis of different sensors for turnout detection for train-borne localization systems. In C.A. Brebbia, N. Tomii, P. Tzieropoulos, J.M. Mera, Herausgeber, Computers in Railways XIV: Railway Engineering Design and Optimization, Band 135 of WIT Transactions on The Built Environment, Seiten 827--838, Southampton, June 2014. WIT Press. [ DOI ]