Publications

Jens Friedrich, Christoph Hinze, Anton Renner, Alexander Verl, and Armin Lechler. Estimation of stability lobe diagrams in milling with continuous learning algorithms. Robotics and Computer-Integrated Manufacturing, -, 2015. [PUMA: myown Support algorithms Process network xvl Learning Milling xfh vector machines xlr Neural stability] URL

Jens Friedrich, Matthias Gebele, Armin Lechler, and Alexander Verl. Determining the width and depths of cut in milling on the basis of a multi-dexel model. International Journal of Mechanical, Aerospace, Induastrial, Mechatronic and Manufacturing Engineering, (9)10:1981-1986, 2015. [PUMA: Abtragssimulation process material simulation xfh xlr xvl isw milling removal stability] URL

Frederik Wulle, Wolfgang Bubeck, Anja Elser, Martin Wolf, and Alexander Verl. Trajektorienplanung mittels modellprädiktiver Vorsteuerung eines FDM-Druckkopfes. 26. Stuttgarter Kunststoffkolloquium, 83-88, IKT, Universität Stuttgart, March 2019. [PUMA: process Vorsteuerung additive predictive control trajectory FDM Trajektorienplanung planning Fertigung Additive modellprädiktive manufacturing model]

Jens Friedrich, and Alexander Verl. In-process Control for Adaptive Spindle Speed Variation and Selection. Proceedings of the International Conference on Advanced Manufacturing Engineering and Technologies NEWTECH 2013, 117-126, 2013. [PUMA: myown process chatter xfh control spindle xvl ISW milling speed stability variation] URL

Jens Friedrich, Henning Hartmann, Alexander Verl, and Armin Lechler. Continuous learning support vector machine to estimate stability lobe diagrams in milling. Proceedings of the 24th International Conference on Flexible Automation & Intelligent Manufacturing, University of Texas at San Antonio, 2014. [PUMA: myown stbaility Support Process xvl isw Learning Milling xfh vector machines xlr algorithm] URL

Jens Friedrich, Andreas Maurer, Armin Lechler, and Alexander Verl. Estmation of the Pose-Dependent Stability Lobe Diagram for a new 5-axis Machining Concept. Proceedings of the The International Conference Management of Technology – Step to Sustainable Production (MOTSP 2016), Porec, Croatia, 2016. [PUMA: 5-axis Finite myown process concept analysis xvl Pose-dependent machining xfh element xlr stability]

Jens Friedrich, and Alexander Verl. Adaptive spindle speed variation to improve process stability. Proceedings of the 22nd International Conference on Production Research, --, 2013. [PUMA: myown chatter online xfh Process control spindle xvl ISW speed stability variation]

Johannes R. Walter, Harnoor Saini, Benjamin Maier, Naser Mostashiri, Jaime L. Aguayo, Homayoon Zarshenas, Christoph Hinze, Shahnewaz Shuva, Johannes Köhler, Annika S. Sahrmann, Che-ming Chang, Akos Csiszar, Simona Galliani, Leo K. Cheng, and Oliver Röhrle. Comparative Study of a Biomechanical Model-based and Black-box Approach for Subject-Specific Movement Prediction. 2020. [PUMA: process grk2198 gaussian isw]

S. Heusinger, R. S. U. Rosso, P. Klemm, S. T. Newman, and S. Rahimifard. Integrating the CAx process chain for STEP-compliant NC manufacturing ofasymmetric parts. International Journal of Computer Integrated Manufacturing19 (2006) 6, S. 533...545. Integrating the CAx process chain for STEP-compliant NC manufacturing ofasymmetric parts. International Journal of Computer Integrated Manufacturing19 (2006) 6, S. 533...545.. --, 2006. [PUMA: CAPP, turning for Process model ISW chain, STEP-NC,]

M. Wosnik, C. Kramer, A. Selig, and P. Klemm. Enabling feedback of process data by use of STEP-NC. International Journal ofComputer Integrated Manufacturing 19 (2006) 6, S. 559...569. Enabling feedback of process data by use of STEP-NC. International Journal ofComputer Integrated Manufacturing 19 (2006) 6, S. 559...569.. --, 2006. [PUMA: drives, Observer theory, Servo Process force CNC, ISW reconstruction]

M. Birkhold, and A. Verl. Research Approaches Enabling Transformability for the Metal Forming Industry: Research Approaches Enabling Transformability for the Metal Forming Industry. --, 2012. [PUMA: materials; Advanced process control; metal Forming distribution ISW metallic planning Production of and]

Birkhold M., Pauli F.-B., Lechler A., and Verl A.. On The Development Of Transformable Sheet Metal Forming Tools: On The Development Of Transformable Sheet Metal Forming Tools. --, 2013. [PUMA: tool process welding integration, forming, metal transformability, development, Sheet ISW]

J. Priese, O. Kornienko, and S. Kornienko. Application of multi-agent planning to the assignment problem. Computers inIndustry 54 (2004) S. 273-290. Application of multi-agent planning to the assignment problem. Computers inIndustry 54 (2004) S. 273-290.. --, 2004. [PUMA: Multi-agent Petri Flexible optimization networks; Distributed system; manufacturing Process ISW planning; systems;]

M. Wosnik, H. Rüdele, and P. Klemm. Requirements and implementation for closed-loop process planning in smallbatch manufacturing environments. Requirements and implementation for closed-loop process planning in smallbatch manufacturing environments.. --, 2007. [PUMA: Tool Feature-based Simulation CNC Architecture, Acquisition, Data Interfaces, Process ISW Machine]