Mitarbeiter

Herr Dipl.-Ing.
Jens Friedrich
Wissenschaftlicher Mitarbeiter

Dieses Bild zeigt  Jens Friedrich
Telefon+49 711 685-82416
Telefax+49 711 685-72416
Raum5.088
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Universität Stuttgart
Institut für Steuerungstechnik der Werkzeugmaschinen und Fertigungseinrichtungen
Seidenstr. 36
70174 Stuttgart
Deutschland
Fachgebiet:
  • Entwicklung neuer Maschinenkonzepte und Sonderkinematiken
  • Optimierung und Adaption des Fräsprozess
  • Maschinelle Lernverfahren
  • Antriebsregelung und -optimierung
  • 3D-Druck
  • Bildverarbeitung
  • Mitarbeit im VDI/VDE-GMA FA 7.21 „Industrie 4.0“ - Begriffe, Referenzmodelle, Architekturkonzepte"
Meine Veröffentlichungen:
  1. 2017

    1. Friedrich, Jens ; Maurer, Andreas ; Lechler, Armin ; Verl, Alexander: Estmation of the Pose-Dependent Stability Lobe Diagram for a new 5-axis Machining Concept. In: International Journal of Engineering - ANNALS of Faculty Engineering Hunedoar, International Journal of Engineering - ANNALS of Faculty Engineering Hunedoar. Bd. 15 (2017a), Nr. 2, S. 99–104
    2. Friedrich, Jens ; Torzewski, Jonas ; Verl, Alexander: Online Learning of Stability Lobe Diagrams in Milling. In: Procedia Technology, Procedia Technology. (2017b)
  2. 2016

    1. Friedrich, Jens ; Hinze, Christoph ; Lechler, Armin ; Verl, Alexander: On-line learning artificial neural networks for stability classification of milling processes. In: 2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM), 2016 IEEE International Conference on Advanced Intelligent Mechatronics (AIM) : Institute of Electrical and Electronics Engineers (IEEE), 2016a
    2. Epple, Ulrich ; Bangemann, Thomas ; Bauer, Christian ; Bedenbender, Heinz ; Braune, Annerose ; Diedrich, Christian ; Diesner, Markus ; Elmas, Filiz ; Friedrich, Jens ; u. a.: Industrie 4.0 Service Architecture Basic concepts for interoperability. In: VDI/VDE-Gesellschaft (Hrsg.) (2016)
    3. Friedrich, Jens ; Maurer, Andreas ; Lechler, Armin ; Verl, Alexander: Estmation of the Pose-Dependent Stability Lobe Diagram for a new 5-axis Machining Concept. In: Proceedings of the The International Conference Management of Technology – Step to Sustainable Production (MOTSP 2016), Proceedings of the The International Conference Management of Technology – Step to Sustainable Production (MOTSP 2016). Porec, Croatia, 2016b
  3. 2015

    1. Friedrich, Jens ; Scheifele, Stefan ; Verl, Alexander ; Lechler, Armin: Flexible and Modular Control and Manufacturing System. In: Procedia \CIRP\, Procedia \CIRP\. Bd. 33 (2015c), S. 115 – 120. — 9th CIRP Conference on Intelligent Computation in Manufacturing Engineering - CIRP ICME ’14
    2. Friedrich, Jens ; Hinze, Christoph ; Renner, Anton ; Verl, Alexander ; Lechler, Armin: Estimation of stability lobe diagrams in milling with continuous learning algorithms. In: Robotics and Computer-Integrated Manufacturing, Robotics and Computer-Integrated Manufacturing. (2015b), S. -
    3. Friedrich, Jens ; Gebele, Matthias ; Lechler, Armin ; Verl, Alexander: Determining the width and depths of cut in milling on the basis of a multi-dexel model. In: International Journal of Mechanical, Aerospace, Induastrial, Mechatronic and Manufacturing Engineering, International Journal of Mechanical, Aerospace, Induastrial, Mechatronic and Manufacturing Engineering. Bd. 9 (2015a), Nr. 10, S. 1981–1986
    4. Engelberth, Tim ; Apprich, Stefanie ; Friedrich, Jens ; Coupek, Daniel ; Lechler, Armin: Properties of electrically preloaded rack-and-pinion drives. In: Production Engineering, Production Engineering. Bd. 9 (2015), Nr. 2, S. 269–276
  4. 2014

    1. Scheifele, Stefan ; Friedrich, Jens ; Lechler, Armin ; Verl, Alexander: Flexible, self-configuring control system for a modular production system. In: Elsevier (Hrsg.) Procedia Technology, Procedia Technology. Bd. Volume 15 (2014a), S. 398–405
    2. Coupek, Daniel ; Friedrich, Jens ; Verl, Alexander ; Lechler, Armin: Modular Information Sharing Platform for Real-Time Data Processing and Knowledge Extraction in Modern Production Systems. In: . Bol, Croatia : -, 2014, S. -–
    3. Scheifele, Stefan ; Friedrich, Jens ; Lechler, Armin ; Verl, Alexander: Modular Production System for Flexible and Localized Production. In: MOTSP2014 (Hrsg.) (2014b)
    4. Friedrich, Jens ; Hartmann, Henning ; Verl, Alexander ; Lechler, Armin: Continuous learning support vector machine to estimate stability lobe diagrams in milling. In: Proceedings of the 24th International Conference on Flexible Automation & Intelligent Manufacturing, Proceedings of the 24th International Conference on Flexible Automation & Intelligent Manufacturing : University of Texas at San Antonio, 2014
  5. 2013

    1. Friedrich, Jens ; Verl, Alexander: In-process Control for Adaptive Spindle Speed Variation and Selection. In: Proceedings of the International Conference on  Advanced Manufacturing Engineering and Technologies  NEWTECH 2013, Proceedings of the International Conference on  Advanced Manufacturing Engineering and Technologies  NEWTECH 2013, 2013b, S. 117–126
    2. Friedrich, Jens ; Verl, Alexander: Adaptive spindle speed variation to improve process stability. In: Proceedings of the 22nd International Conference on Production Research, Proceedings of the 22nd International Conference on Production Research, 2013a, S. -–
  6. 2011

    1. Verl, Alexander ; Westkämper, Engelbert ; Abele, Eberhard ; Dietmair, Anton ; Schlechtendahl, Jan ; Friedrich, Jens ; Haag, Holger ; Schrems, Sebastian: Architecture for Multilevel Monitoring and Control of Energy Consumption. In: Glocalized Solutions for Sustainability in Manufacturing-, Glocalized Solutions for Sustainability in Manufacturing-. Berlin, Heidelberg : Springer-Verlag, 2011, S. 347–352
    2. Schlechtendahl, Jan ; Haag, Holger ; Eberspächer, Philipp ; Friedrich, Jens ; Verl, Alexander ; Westkämper, Engelbert: Multilevel Control of Energy Consumption: Multilevel Control of Energy Consumption. In: Proceedings of the 21st International Conference on Production Research, Proceedings of the 21st International Conference on Production Research. Stuttgart, Germany : -, 2011, S. -–