@inproceedings{StuhlsatzMeierKatzetal.2003, author = {Stuhlsatz, Andr{\´e} and Meier, Hans-G{\"u}nter and Katz, M. and Kr{\"u}ger, S. E. and Wendemuth, Andreas}, title = {Classification of Speech Recognition Hypotheses with Support Vector Machines}, series = {Proceedings of the Speech Processing Workshop: Magdeburg, Germany, September 09, 2003 ; in connection with the symposium of the German Association for Pattern Recognition (DAGM) 2003}, booktitle = {Proceedings of the Speech Processing Workshop: Magdeburg, Germany, September 09, 2003 ; in connection with the symposium of the German Association for Pattern Recognition (DAGM) 2003}, editor = {Wendemuth, Andreas}, publisher = {Otto-von-Guericke-Universit{\"a}t Magdeburg}, address = {Magdeburg}, isbn = {9783929757590}, year = {2003}, language = {en} } @inproceedings{Stuhlsatz2007, author = {Stuhlsatz, Andr{\´e}}, title = {Recognition of ultrasonic multi-echo sequences for autonomous symbolic indoor tracking}, series = {Sixth International Conference on Machine Learning and Applications (ICMLA 2007), 13-15 December 2007, Cincinnati}, booktitle = {Sixth International Conference on Machine Learning and Applications (ICMLA 2007), 13-15 December 2007, Cincinnati}, publisher = {IEEE}, isbn = {978-0-7695-3069-7}, doi = {10.1109/ICMLA.2007.30}, pages = {178 -- 185}, year = {2007}, language = {en} } @incollection{StuhlsatzMeierWendemuth2007, author = {Stuhlsatz, Andr{\´e} and Meier, Hans-G{\"u}nter and Wendemuth, Andreas}, title = {Maximum Margin Classification on Convex Euclidean Metric Spaces}, series = {Advances in Soft Computing}, volume = {AINSC,volume 45}, booktitle = {Advances in Soft Computing}, editor = {Kurzynski, Marek and Puchala, Edward and Wozniak, Michal and Zolnierek, Andrzej}, publisher = {Springer Nature}, address = {Berlin, Heidelberg}, isbn = {9783540751748}, issn = {1867-5662}, doi = {10.1007/978-3-540-75175-5_27}, pages = {216 -- 223}, year = {2007}, language = {en} } @inproceedings{StuhlsatzMeierWendemuth2008, author = {Stuhlsatz, Andr{\´e} and Meier, Hans-G{\"u}nter and Wendemuth, Andreas}, title = {Making the Lipschitz Classifier Practical via Semi-infinite Programming}, series = {2008 Seventh International Conference on Machine Learning and Applications, 11-13 December 2008, San Diego}, booktitle = {2008 Seventh International Conference on Machine Learning and Applications, 11-13 December 2008, San Diego}, publisher = {IEEE}, isbn = {978-0-7695-3495-4}, doi = {10.1109/ICMLA.2008.26}, pages = {40 -- 47}, year = {2008}, language = {en} } @misc{OPUS4-5411, title = {1010 - Pr{\"u}fungsordnung f{\"u}r den Bachelorstudiengang Haus-, Energie- und Anlagentechnik (HEAT) an der Hochschule D{\"u}sseldorf vom 12.06.2025}, address = {D{\"u}sseldorf}, organization = {Hochschule D{\"u}sseldorf}, url = {http://nbn-resolving.de/urn:nbn:de:hbz:due62-opus-54118}, pages = {5}, year = {2025}, abstract = {Aufgrund der \S\S 2 Abs. 4, 64 Abs. 1 des Gesetzes {\"u}ber die Hochschulen des Landes Nordrhein-Westfalen (Hochschulgesetz - HG) vom 16.09.2014 (GV. NRW. S. 547) in der aktuell g{\"u}ltigen Fassung hat die Hochschule D{\"u}sseldorf die folgende studiengangspezifische Pr{\"u}fungsordnung als Satzung erlassen. Diese Pr{\"u}fungsordnung gilt nur in Verbindung mit der Rahmenpr{\"u}fungsordnung des Fachbereichs Maschinenbau und Verfahrenstechnik der Hochschule D{\"u}sseldorf (RahmenPO) vom 15.02.2016 in der jeweils g{\"u}ltigen Fassung.}, language = {de} } @misc{OPUS4-5410, title = {1009 - F{\"u}nfte Satzung zur {\"A}nderung der Rahmenpr{\"u}fungsordnung f{\"u}r den Fachbereich Maschinenbau und Verfahrenstechnik an der Hochschule D{\"u}sseldorf vom 12.06.2025}, address = {D{\"u}sseldorf}, organization = {Hochschule D{\"u}sseldorf}, url = {http://nbn-resolving.de/urn:nbn:de:hbz:due62-opus-54102}, pages = {2}, year = {2025}, abstract = {Aufgrund der \S\S 2 Abs. 4, 64 Abs. 1 des Gesetzes {\"u}ber die Hochschulen des Landes Nordrhein-Westfalen (Hochschulgesetz - HG) vom 6.09.2014 (GV. NRW. S. 547) in der aktuell g{\"u}ltigen Fassung hat die Hochschule D{\"u}sseldorf die folgende Ordnung als Satzung erlassen.}, language = {de} } @inproceedings{Weber1992, author = {Weber, Konradin}, title = {Bestimmung von Verfahrenskenngr{\"o}ßen bei Meßverfahren f{\"u}r gasf{\"o}rmige Luftverunreinigungen nach VDI-Richtlinien und DIN/ISO-Normen}, series = {Laser in der Umweltmeßtechnik / Laser in Remote Sensing: Vortr{\"a}ge des 10. Internationalen Kongresses / Proceedings of the 10th International Congress}, booktitle = {Laser in der Umweltmeßtechnik / Laser in Remote Sensing: Vortr{\"a}ge des 10. Internationalen Kongresses / Proceedings of the 10th International Congress}, editor = {Wener, Christian and Klein, Volker and Weber, Konradin}, publisher = {Springer Nature}, address = {Berlin, Heidelberg}, isbn = {9783540552482}, doi = {10.1007/978-3-642-50980-3_20}, pages = {131 -- 140}, year = {1992}, subject = {Lasermesstechnik}, language = {de} } @inproceedings{OPUS4-5030, title = {Laser in der Umweltmeßtechnik / Laser in Remote Sensing: Vortr{\"a}ge des 10. Internationalen Kongresses / Proceedings of the 10th International Congress}, editor = {Werner, Christian and Klein, Volker and Weber, Konradin}, publisher = {Springer Nature}, address = {Berlin, Heidelberg}, isbn = {9783540552482}, doi = {10.1007/978-3-642-50980-3}, year = {1992}, subject = {Lasermesstechnik}, language = {mul} } @article{BenimNeuhoff1993, author = {Benim, Ali Cemal and Neuhoff, H. G.}, title = {Analysis of erosion behaviour in a turbocharger radial turbine}, series = {International Journal for Numerical Methods in Fluids}, volume = {16}, journal = {International Journal for Numerical Methods in Fluids}, number = {4}, publisher = {Wiley}, issn = {0271-2091}, doi = {10.1002/fld.1650160402}, pages = {259 -- 285}, year = {1993}, abstract = {An analysis of the erosion behaviour of a turbocharger radial turbine is presented. The solution domain includes both sides of the radial turbine scroll with double intake and the rotor channel. In the analysis a dilute gas-particle flow assumption is employed. The gas turbulence is defined by the k-ε model. In solving the gas phase equation, the computer code Harwell-FLOW3D is employed, which is based on a finite volume formulation using non-orthogonal body-fitted structured gridding and a pressure correction method. The particle phase is described by a Lagrangian approach, while particle paths are computed deterministically, neglecting the turbulent dispersion. For the computation of particle trajectories the code PTRACK is employed, which has been developed at ABB. Computations are carried out for several particle size classes. The results show that particles are thrown back into the scroll by the rotor at high rates. This seems to be the main source of erosion effects in the scroll. It has been observed that particles are unequally distributed between the scroll sides on their re-entry, resulting in greater erosion on one of the scroll sides. The maximum erosion along the scroll is found to be likely to occur near the scroll end.}, subject = {Erosion}, language = {en} } @article{Benim1990, author = {Benim, Ali Cemal}, title = {Finite element analysis of confined turbulent swirling flows}, series = {International Journal for Numerical Methods in Fluids}, volume = {11}, journal = {International Journal for Numerical Methods in Fluids}, number = {6}, publisher = {Wiley}, issn = {0271-2091}, doi = {10.1002/fld.1650110602}, pages = {697 -- 717}, year = {1990}, abstract = {The finite element method is applied to incompressible and statistically steady confined turbulent swirling flows. A velocity-pressure formulation is employed. The momentum and continuity equations are solved using a segregated algorithm. Two turbulence models, namely the standard κ-ε model and the algebraic stress model, are considered. It is shown that the algebraic stress model leads to significantly more accurate results in swirling flows compared to the κ-ε model. A novel way of implementing the algebraic stress model is presented in which the stresses are coupled to the Navier-Stokes equations in such a way that they 'correct' the effective viscosity hypothesis. This formulation seems to provide a convenient approach for finite elements. In deriving the discretization equations, a streamline-upwind/Petrov-Galerkin method is employed. Comparisons performed between various upwind schemes show that the numerical solution may be substantially affected by the particular upwind procedure used. The analysis is extended to the prediction of particle motion in turbulent swirling flow fields. Here the fluid turbulence is modelled adopting a stochastic approach. The influence of turbulence modelling on particle movement is investigated.}, subject = {Finite-Elemente-Methode}, language = {en} } @article{SuhBenim1989, author = {Suh, S.-H. and Benim, Ali Cemal}, title = {The primitive variables formulation of the Navier-Stokes equations using the finite analytic method}, series = {Applied Mathematical Modelling}, volume = {13}, journal = {Applied Mathematical Modelling}, number = {9}, publisher = {Elsevier}, issn = {0307-904X}, doi = {10.1016/0307-904X(89)90066-8}, pages = {550 -- 554}, year = {1989}, subject = {Navier-Stokes-Gleichung}, language = {en} } @article{BenimZinserSchnell1989, author = {Benim, Ali Cemal and Zinser, Walter and Schnell, Uwe}, title = {Investigation into the finite element analysis of enclosed turbulent diffusion flames}, series = {Applied Mathematical Modelling}, volume = {13}, journal = {Applied Mathematical Modelling}, number = {5}, publisher = {Elsevier}, issn = {0307-904X}, doi = {10.1016/0307-904X(89)90069-3}, pages = {258 -- 267}, year = {1989}, subject = {Finite-Elemente-Methode}, language = {en} } @article{Benim1989, author = {Benim, Ali Cemal}, title = {Finite element solution of an enclosed turbulent diffusion flame}, series = {International Journal for Numerical Methods in Fluids}, volume = {9}, journal = {International Journal for Numerical Methods in Fluids}, number = {3}, publisher = {Wiley}, issn = {0271-2091}, doi = {10.1002/fld.1650090305}, pages = {289 -- 303}, year = {1989}, abstract = {A finite element formulation of enclosed turbulent diffusion flames is presented. A primitive variables approach is preferred in the analysis. A mixed interpolation is employed for the velocity and pressure. In the solution of the Navier-Stokes equations, a segregated formulation is adopted, where the pressure discretization equation is obtained directly from the discretized continuity equation, considering the velocity-pressure relationships in the discretized momentum equations. The state of turbulence is defined by a κ-ϵ model. Near solid boundaries, a wall function approach is employed. The combustion rates are estimated using the eddy dissipation concept. The expensive direct treatment of the integrodifferential equations of radiation is avoided by employing the moment method, which allows the derivation of an approximate local field equation for the radiation intensity. The proposed finite element model is verified by investigating a technical turbulent diffusion flame of semi-industrial size, and comparing the results with experiments and finite difference predictions.}, subject = {Finite-Elemente-Methode}, language = {en} } @article{Benim1988, author = {Benim, Ali Cemal}, title = {A finite element solution of radiative heat transfer in participating media utilizing the moment method}, series = {Computer Methods in Applied Mechanics and Engineering}, volume = {67}, journal = {Computer Methods in Applied Mechanics and Engineering}, number = {1}, publisher = {Elsevier}, issn = {0045-7825}, doi = {10.1016/0045-7825(88)90065-5}, pages = {1 -- 14}, year = {1988}, subject = {Finite-Elemente-Methode}, language = {en} } @article{BenimZinser1986, author = {Benim, Ali Cemal and Zinser, Walter}, title = {A segregated formulation of Navier-Stokes equations with finite elements}, series = {Computer Methods in Applied Mechanics and Engineering}, volume = {57}, journal = {Computer Methods in Applied Mechanics and Engineering}, number = {2}, publisher = {Elsevier}, issn = {0045-7825}, doi = {10.1016/0045-7825(86)90015-0}, pages = {223 -- 237}, year = {1986}, subject = {Navier-Stokes-Gleichung}, language = {en} } @article{BenimZinser1985, author = {Benim, Ali Cemal and Zinser, Walter}, title = {Investigation into the finite element analysis of confined turbulent flows using a κ-ε model of turbulence}, series = {Computer Methods in Applied Mechanics and Engineering}, volume = {51}, journal = {Computer Methods in Applied Mechanics and Engineering}, number = {1-3}, publisher = {Elsevier}, issn = {0045-7825}, doi = {10.1016/0045-7825(85)90045-3}, pages = {507 -- 523}, year = {1985}, subject = {Finite-Elemente-Methode}, language = {en} } @article{WannekNehrVahlenkampetal.2009, author = {Wannek, C. and Nehr, Sascha and Vahlenkamp, M. and Mergel, J. and Stolten, D.}, title = {Pseudo-half-cell measurements on symmetrical catalyst-coated membranes and their relevance for optimizing DMFC anodes}, series = {Journal of Applied Electrochemistry}, volume = {40}, journal = {Journal of Applied Electrochemistry}, number = {1}, publisher = {Springer Nature}, issn = {0021-891X}, doi = {10.1007/s10800-009-9960-9}, pages = {29 -- 38}, year = {2009}, language = {en} } @article{NehrBohnFuchsetal.2011, author = {Nehr, Sascha and Bohn, Birger and Fuchs, Hendrik and Hofzumahaus, Andreas and Wahner, Andreas}, title = {HO2 formation from the OH + benzene reaction in the presence of O2}, series = {Physical Chemistry Chemical Physics}, volume = {13}, journal = {Physical Chemistry Chemical Physics}, number = {22}, publisher = {Royal Society of Chemistry (RSC)}, issn = {1463-9076}, doi = {10.1039/c1cp20334g}, year = {2011}, language = {en} } @article{FuchsBohnHofzumahausetal.2011, author = {Fuchs, H. and Bohn, Birger and Hofzumahaus, A. and Holland, F. and Lu, K. D. and Nehr, Sascha and Rohrer, F. and Wahner, A.}, title = {Detection of HO2 by laser-induced fluorescence: calibration and interferences from RO2 radicals}, series = {Atmospheric Measurement Techniques}, volume = {4}, journal = {Atmospheric Measurement Techniques}, number = {6}, publisher = {Copernicus}, issn = {1867-8548}, doi = {10.5194/amt-4-1209-2011}, pages = {1209 -- 1225}, year = {2011}, abstract = {Abstract. HO2 concentration measurements are widely accomplished by chemical conversion of HO2 to OH including reaction with NO and subsequent detection of OH by laser-induced fluorescence. RO2 radicals can be converted to OH via a similar radical reaction sequence including reaction with NO, so that they are potential interferences for HO2 measurements. Here, the conversion efficiency of various RO2 species to HO2 is investigated. Experiments were conducted with a radical source that produces OH and HO2 by water photolysis at 185 nm, which is frequently used for calibration of LIF instruments. The ratio of HO2 and the sum of OH and HO2 concentrations provided by the radical source was investigated and was found to be 0.50 ± 0.02. RO2 radicals are produced by the reaction of various organic compounds with OH in the radical source. Interferences via chemical conversion from RO2 radicals produced by the reaction of OH with methane and ethane (H-atom abstraction) are negligible consistent with measurements in the past. However, RO2 radicals from OH plus alkene- and aromatic-precursors including isoprene (mainly OH-addition) are detected with a relative sensitivity larger than 80 \% with respect to that for HO2 for the configuration of the instrument with which it was operated during field campaigns. Also RO2 from OH plus methyl vinyl ketone and methacrolein exhibit a relative detection sensitivity of 60 \%. Thus, previous measurements of HO2 radical concentrations with this instrument were biased in the presence of high RO2 radical concentrations from isoprene, alkenes or aromatics, but were not affected by interferences in remote clean environment with no significant emissions of biogenic VOCs, when the OH reactivity was dominated by small alkanes. By reducing the NO concentration and/or the transport time between NO addition and OH detection, interference from these RO2 species are suppressed to values below 20 \% relative to the HO2 detection sensitivity. The HO2 conversion efficiency is also smaller by a factor of four, but this is still sufficient for atmospheric HO2 concentration measurements for a wide range of conditions.}, language = {en} } @article{NehrBohnWahner2012, author = {Nehr, Sascha and Bohn, Birger and Wahner, Andreas}, title = {Prompt HO2Formation Following the Reaction of OH with Aromatic Compounds under Atmospheric Conditions}, series = {The Journal of Physical Chemistry A}, volume = {116}, journal = {The Journal of Physical Chemistry A}, number = {24}, publisher = {American Chemical Society (ACS)}, issn = {1089-5639}, doi = {10.1021/jp210946y}, pages = {6015 -- 6026}, year = {2012}, language = {en} }