[{"_id":"24027","date_updated":"2022-01-06T06:56:06Z","citation":{"mla":"Adelt, Peer, et al. “A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures.” MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop, 2020.","bibtex":"@inproceedings{Adelt_Koppelmann_Müller_Scheytt_2020, place={Stuttgart, DE}, title={A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures}, booktitle={MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop}, author={Adelt, Peer and Koppelmann, Bastian and Müller, Wolfgang and Scheytt, Christoph}, year={2020} }","chicago":"Adelt, Peer, Bastian Koppelmann, Wolfgang Müller, and Christoph Scheytt. “A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures.” In MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop. Stuttgart, DE, 2020.","ama":"Adelt P, Koppelmann B, Müller W, Scheytt C. A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures. In: MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop. ; 2020.","apa":"Adelt, P., Koppelmann, B., Müller, W., & Scheytt, C. (2020). A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures. MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop.","ieee":"P. Adelt, B. Koppelmann, W. Müller, and C. Scheytt, “A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures,” 2020.","short":"P. Adelt, B. Koppelmann, W. Müller, C. Scheytt, in: MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop, Stuttgart, DE, 2020."},"type":"conference","year":"2020","language":[{"iso":"eng"}],"place":"Stuttgart, DE","abstract":[{"text":"Fault effect simulation is a well-established technique for the qualification of robust embedded software and hardware as required by different safety standards. Our article introduces a Virtual Prototype based approach for the fault analysis and fast simulation of a set of automatically generated and target compiled software programs. The approach scales to different RISC-V ISA standard subset configurations and is based on an instruction and hardware register coverage for automatic fault injections of permanent and transient bitflips. The analysis of each software binary evaluates its opcode type and register access coverage including the addressed memory space. Based on this information dedicated sets of fault injected hardware models, i.e., mutants, are generated. The simulation of all mutants conducted with the different binaries finally identifies the cases with a normal termination though executed on a faulty hardware model. They are identified as a subject for further investigations and improvements by the implementation of additional hardware or software safety countermeasures. Our final evaluation results with automatic C code generation, compilation, analysis, and simulation show that QEMU provides an adequate efficient platform, which also scales to more complex scenarios.","lang":"eng"}],"title":"A Scalable Platform for QEMU Based Fault Effect Analysis for RISC-V Hardware Architectures","related_material":{"link":[{"relation":"confirmation","url":"https://ieeexplore.ieee.org/document/9094540"}]},"user_id":"15931","author":[{"first_name":"Peer","full_name":"Adelt, Peer","last_name":"Adelt","id":"5603"},{"last_name":"Koppelmann","id":"25260","first_name":"Bastian","full_name":"Koppelmann, Bastian"},{"last_name":"Müller","id":"16243","first_name":"Wolfgang","full_name":"Müller, Wolfgang"},{"last_name":"Scheytt","id":"37144","first_name":"Christoph","full_name":"Scheytt, Christoph"}],"department":[{"_id":"58"}],"publication":"MBMV 2020 - Methods and Description Languages for Modelling and Verification of Circuits and Systems; GMM/ITG/GI-Workshop","status":"public","date_created":"2021-09-09T11:50:19Z"},{"language":[{"iso":"eng"}],"page":"1-1","year":"2020","type":"journal_article","citation":{"short":"S. Haddadian, C. Scheytt, IEEE Journal of Radio Frequency Identification (2020) 1–1.","ieee":"S. Haddadian and C. Scheytt, “Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to be Used with Compact MIMO Readers,” IEEE Journal of Radio Frequency Identification, pp. 1–1, 2020, doi: 10.1109/JRFID.2020.3009741.","apa":"Haddadian, S., & Scheytt, C. (2020). Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to be Used with Compact MIMO Readers. IEEE Journal of Radio Frequency Identification, 1–1. https://doi.org/10.1109/JRFID.2020.3009741","ama":"Haddadian S, Scheytt C. Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to be Used with Compact MIMO Readers. IEEE Journal of Radio Frequency Identification. Published online 2020:1-1. doi:10.1109/JRFID.2020.3009741","chicago":"Haddadian, Sanaz, and Christoph Scheytt. “Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to Be Used with Compact MIMO Readers.” IEEE Journal of Radio Frequency Identification, 2020, 1–1. https://doi.org/10.1109/JRFID.2020.3009741.","bibtex":"@article{Haddadian_Scheytt_2020, title={Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to be Used with Compact MIMO Readers}, DOI={10.1109/JRFID.2020.3009741}, journal={IEEE Journal of Radio Frequency Identification}, author={Haddadian, Sanaz and Scheytt, Christoph}, year={2020}, pages={1–1} }","mla":"Haddadian, Sanaz, and Christoph Scheytt. “Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to Be Used with Compact MIMO Readers.” IEEE Journal of Radio Frequency Identification, 2020, pp. 1–1, doi:10.1109/JRFID.2020.3009741."},"doi":"10.1109/JRFID.2020.3009741","_id":"24029","date_updated":"2022-01-06T06:56:06Z","date_created":"2021-09-09T11:50:22Z","status":"public","department":[{"_id":"58"}],"publication":"IEEE Journal of Radio Frequency Identification","author":[{"last_name":"Haddadian","id":"59648","first_name":"Sanaz","full_name":"Haddadian, Sanaz"},{"last_name":"Scheytt","id":"37144","first_name":"Christoph","full_name":"Scheytt, Christoph"}],"related_material":{"link":[{"url":"https://ieeexplore.ieee.org/document/9143170","relation":"confirmation"}]},"user_id":"15931","title":"Analysis, Design and Implementation of a Fully Integrated Analog Front-End for Microwave RFIDs at 5.8 GHz to be Used with Compact MIMO Readers","abstract":[{"text":"In this paper we present the system and circuit level analysis and feasibility study of applying microwave Radio Frequency Identification (RFID) systems with multipleinput multiple-output (MIMO) reader technology for tracking machining tools in multipath fading conditions of production environments. In the proposed system the MIMO reader interrogates single-antenna tags, and a high RFID frequency of 5.8 GHz is chosen to reduce the size of the reader's antenna array. According to the requirements dictated by the performed system analysis at 5.8 GHz, a low power fully integrated analog frontend (AFE) is designed and fabricated in a standard 65-nm CMOS technology for low power passive transponders. Performance of the Differential Drive Rectifier (DDR) topology as the core of the energy harvesting unit is investigated in detail. A multi-stage DDR power scavenging unit is dimensioned to provide a 1.2 V rectified voltage for 20-30 kQ load range, with a high power conversion efficiency (PCE) for high frequency and low input power level signals. The rectified voltage is then converted to a 1 V regulated voltage for the AFE and the baseband processor with 30 to 50 μW of estimated power consumption. Transistors with standard threshold voltage (VT) have been used for implementation. Measurements of the fabricated multi-stage configuration of the circuit show a maximum PCE of 68.8% at -12.46 dBm, and an input quality factor (Q-factor) of approximately 10. Amplitude-shift keying (ASK) demodulator and backscattering modulator with 80% modulation index, operating according to EPC-C1G2 protocol are applied for data transfer. The AFE consumes less than 1 μW in the reading mode. The AFE tag chip is 0.55 × 0.58 mm 2 .","lang":"eng"}]},{"type":"conference","citation":{"short":"S. Ballandras, S. Abughannam, E. Courjon, C. Scheytt, in: GeMiC 2020 - German Microwave Conference, 2020.","ieee":"S. Ballandras, S. Abughannam, E. Courjon, and C. Scheytt, “Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers,” 2020.","chicago":"Ballandras, Sylvain, Saed Abughannam, Emilie Courjon, and Christoph Scheytt. “Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers.” In GeMiC 2020 - German Microwave Conference, 2020.","ama":"Ballandras S, Abughannam S, Courjon E, Scheytt C. Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers. In: GeMiC 2020 - German Microwave Conference. ; 2020.","apa":"Ballandras, S., Abughannam, S., Courjon, E., & Scheytt, C. (2020). Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers. GeMiC 2020 - German Microwave Conference.","mla":"Ballandras, Sylvain, et al. “Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers.” GeMiC 2020 - German Microwave Conference, 2020.","bibtex":"@inproceedings{Ballandras_Abughannam_Courjon_Scheytt_2020, title={Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers}, booktitle={GeMiC 2020 - German Microwave Conference}, author={Ballandras, Sylvain and Abughannam, Saed and Courjon, Emilie and Scheytt, Christoph}, year={2020} }"},"year":"2020","language":[{"iso":"eng"}],"date_updated":"2022-01-06T06:56:06Z","_id":"24030","date_created":"2021-09-09T11:50:23Z","status":"public","publication":"GeMiC 2020 - German Microwave Conference","department":[{"_id":"58"}],"author":[{"first_name":"Sylvain","full_name":"Ballandras, Sylvain","last_name":"Ballandras"},{"id":"37628","last_name":"Abughannam","full_name":"Abughannam, Saed","first_name":"Saed"},{"full_name":"Courjon, Emilie","first_name":"Emilie","last_name":"Courjon"},{"full_name":"Scheytt, Christoph","first_name":"Christoph","id":"37144","last_name":"Scheytt"}],"title":"Design and Fabrication of Barker Coded Surface Acoustic Wave (SAW) Correlator at 2.45 GHz for Low-Power Wake-up Receivers","related_material":{"link":[{"url":"https://ieeexplore.ieee.org/document/9080181","relation":"confirmation"}]},"user_id":"15931","abstract":[{"text":"Low-power receivers use direct-detection receiver architecture for its design simplicity and its low power dissipation. However, the direct-detection based receivers suffer from co-channel interference which significantly degrades the communication reliability. Co-channel interference robustness can be improved by using a BPSK Barker code modulated Surface Acoustic Wave (SAW) correlator as a prior stage to the RF direct detection circuit. This paper reports in details the design, fabrication and measurements of a 2.45 GHz SAW correlator with 13 bits length Barker code. The device is fabricated on Lithium Niobate LiNbO3 substrate and it is composed of an input non-coded Inter Digital Transducers (IDT), a Piezoelectric substrate and an output coded IDT. The device wavelength λ is set to 1.6 μm, considering a phase velocity of the wave equal to 3970 m.s-1. Several configurations of the device were designed and fabricated, particularly varying the aperture and the non-coded IDT length to find out the optimal device configuration. All devices were found to operate with Insertion Loss (IL) ranging from 12 to 15 dB at 2.45 GHz with a tip probing measurement setup, while a packaged sample has an IL of 12.45 dB at 2.44 GHz mounted on a PCB with external 50 Ω LC matching network. Additionally, time-domain measurement for the packaged device shows that the output has a correlation peak with a peak-to-side-lobe (PSL) ratio of 4:1 for a -0.5 dBm input BPSK Barker code signal.","lang":"eng"}]},{"citation":{"ieee":"D. T. Schraeder, T. Schafran, B. Geisen, and L. Rubbert, “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom,” Orthopädie Technik, vol. 71 (9), pp. 32–37, 2020.","short":"D.T. Schraeder, T. Schafran, B. Geisen, L. Rubbert, Orthopädie Technik 71 (9) (2020) 32–37.","mla":"Schraeder, Dirk Theodor, et al. “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom.” Orthopädie Technik, vol. 71 (9), 2020, pp. 32–37.","bibtex":"@article{Schraeder_Schafran_Geisen_Rubbert_2020, title={Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom}, volume={71 (9)}, journal={Orthopädie Technik}, author={Schraeder, Dirk Theodor and Schafran, Tommy and Geisen, Bärbel and Rubbert, Lisa}, year={2020}, pages={32–37} }","ama":"Schraeder DT, Schafran T, Geisen B, Rubbert L. Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom. Orthopädie Technik. 2020;71 (9):32-37.","apa":"Schraeder, D. T., Schafran, T., Geisen, B., & Rubbert, L. (2020). Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom. Orthopädie Technik, 71 (9), 32–37.","chicago":"Schraeder, Dirk Theodor, Tommy Schafran, Bärbel Geisen, and Lisa Rubbert. “Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom.” Orthopädie Technik 71 (9) (2020): 32–37."},"year":"2020","type":"journal_article","page":"32-37","language":[{"iso":"ger"}],"date_updated":"2022-01-06T06:56:06Z","_id":"24031","author":[{"full_name":"Schraeder, Dirk Theodor","first_name":"Dirk Theodor","last_name":"Schraeder"},{"id":"72888","last_name":"Schafran","full_name":"Schafran, Tommy","first_name":"Tommy"},{"first_name":"Bärbel","full_name":"Geisen, Bärbel","last_name":"Geisen"},{"last_name":"Rubbert","full_name":"Rubbert, Lisa","first_name":"Lisa"}],"department":[{"_id":"143"}],"publication":"Orthopädie Technik","volume":"71 (9)","status":"public","date_created":"2021-09-09T11:54:31Z","title":"Ein interdisziplinärer und akutmedizinischer Ansatz zur frühestmöglichen Intervention bei Patienten mit Diabetischem Fußsyndrom","user_id":"45673"},{"abstract":[{"lang":"eng","text":"Abstract\r\n In two-phase flows in which the Capillary number is low, errors in the computation of the surface tension force at the interface cause Front-Capturing methods such as Volume of Fluid (VOF) and Level-Set (LS) to develop interfacial spurious currents. To better solve low Capillary number flows, special treatment is required to reduce such spurious currents. Smoothing the phase indicator field to more accurately compute the curvature or adding interfacial artificial viscosity are techniques that can treat this problem. This study explores OpenFOAM, Fluent and StarCCM+ VOF solvers for the classical case of a static bubble/droplet immersed in a continuous aqueous phase, with the focus on the ability of these solvers to adequately reduce spurious currents. The results are expected to be helpful for practicing chemical engineers who use multiphase CFD solvers in their work."}],"title":"On methods to reduce spurious currents within VOF solver frameworks. Part 1: a review of the static bubble/droplet","user_id":"75069","author":[{"first_name":"Venkatesh","full_name":"Inguva, Venkatesh","last_name":"Inguva"},{"last_name":"Schulz","first_name":"Andreas","full_name":"Schulz, Andreas"},{"first_name":"Eugeny Y.","full_name":"Kenig, Eugeny Y.","last_name":"Kenig"}],"publication":"Chemical Product and Process Modeling","publication_identifier":{"issn":["1934-2659","2194-6159"]},"publication_status":"published","status":"public","date_created":"2021-09-10T07:53:00Z","_id":"24120","date_updated":"2022-01-06T06:56:07Z","doi":"10.1515/cppm-2020-0052","year":"2020","type":"journal_article","citation":{"mla":"Inguva, Venkatesh, et al. “On Methods to Reduce Spurious Currents within VOF Solver Frameworks. Part 1: A Review of the Static Bubble/Droplet.” Chemical Product and Process Modeling, 2020, doi:10.1515/cppm-2020-0052.","bibtex":"@article{Inguva_Schulz_Kenig_2020, title={On methods to reduce spurious currents within VOF solver frameworks. Part 1: a review of the static bubble/droplet}, DOI={10.1515/cppm-2020-0052}, journal={Chemical Product and Process Modeling}, author={Inguva, Venkatesh and Schulz, Andreas and Kenig, Eugeny Y.}, year={2020} }","chicago":"Inguva, Venkatesh, Andreas Schulz, and Eugeny Y. Kenig. “On Methods to Reduce Spurious Currents within VOF Solver Frameworks. Part 1: A Review of the Static Bubble/Droplet.” Chemical Product and Process Modeling, 2020. https://doi.org/10.1515/cppm-2020-0052.","ama":"Inguva V, Schulz A, Kenig EY. On methods to reduce spurious currents within VOF solver frameworks. Part 1: a review of the static bubble/droplet. Chemical Product and Process Modeling. Published online 2020. doi:10.1515/cppm-2020-0052","apa":"Inguva, V., Schulz, A., & Kenig, E. Y. (2020). On methods to reduce spurious currents within VOF solver frameworks. Part 1: a review of the static bubble/droplet. Chemical Product and Process Modeling. https://doi.org/10.1515/cppm-2020-0052","ieee":"V. Inguva, A. Schulz, and E. Y. Kenig, “On methods to reduce spurious currents within VOF solver frameworks. Part 1: a review of the static bubble/droplet,” Chemical Product and Process Modeling, 2020, doi: 10.1515/cppm-2020-0052.","short":"V. Inguva, A. Schulz, E.Y. Kenig, Chemical Product and Process Modeling (2020)."},"language":[{"iso":"eng"}]},{"user_id":"45326","title":"Der richtige Dreh für Simulationen","author":[{"id":"20530","last_name":"Schöppner","full_name":"Schöppner, Volker","first_name":"Volker"},{"first_name":"Laura","full_name":"Austermeier, Laura","last_name":"Austermeier","id":"45326"},{"last_name":"Dietl","first_name":"Kilian","full_name":"Dietl, Kilian"}],"keyword":["Compoundieren","Doppenschneckenextruder","Energieeintrag"],"department":[{"_id":"367"},{"_id":"9"},{"_id":"321"}],"publication":"Blasformen & Extrusionswerkzeuge","status":"public","date_created":"2021-09-10T08:39:00Z","publication_status":"published","_id":"24133","date_updated":"2022-01-06T06:56:07Z","publication_date":"2020","language":[{"iso":"ger"}],"year":"2020","citation":{"short":"V. Schöppner, L. Austermeier, K. Dietl, Blasformen & Extrusionswerkzeuge (2020).","ieee":"V. Schöppner, L. Austermeier, and K. Dietl, “Der richtige Dreh für Simulationen,” Blasformen & Extrusionswerkzeuge, 2020.","ama":"Schöppner V, Austermeier L, Dietl K. Der richtige Dreh für Simulationen. Blasformen & Extrusionswerkzeuge. 2020.","apa":"Schöppner, V., Austermeier, L., & Dietl, K. (2020). Der richtige Dreh für Simulationen. Blasformen & Extrusionswerkzeuge.","chicago":"Schöppner, Volker, Laura Austermeier, and Kilian Dietl. “Der richtige Dreh für Simulationen.” Blasformen & Extrusionswerkzeuge, 2020.","bibtex":"@article{Schöppner_Austermeier_Dietl_2020, title={Der richtige Dreh für Simulationen}, journal={Blasformen & Extrusionswerkzeuge}, author={Schöppner, Volker and Austermeier, Laura and Dietl, Kilian}, year={2020} }","mla":"Schöppner, Volker, et al. “Der richtige Dreh für Simulationen.” Blasformen & Extrusionswerkzeuge, 2020."},"type":"newspaper_article","page":"7"},{"language":[{"iso":"ger"}],"type":"newspaper_article","citation":{"ieee":"V. Schöppner, L. Austermeier, and K. Dietl, “SKZ simuliert Doppelschnecke,” K Zeitung, 2020.","short":"V. Schöppner, L. Austermeier, K. Dietl, K Zeitung (2020).","bibtex":"@article{Schöppner_Austermeier_Dietl_2020, title={SKZ simuliert Doppelschnecke}, journal={K Zeitung}, author={Schöppner, Volker and Austermeier, Laura and Dietl, Kilian}, year={2020} }","mla":"Schöppner, Volker, et al. “SKZ simuliert Doppelschnecke.” K Zeitung, 2020.","chicago":"Schöppner, Volker, Laura Austermeier, and Kilian Dietl. “SKZ simuliert Doppelschnecke.” K Zeitung, 2020.","ama":"Schöppner V, Austermeier L, Dietl K. SKZ simuliert Doppelschnecke. K Zeitung. 2020.","apa":"Schöppner, V., Austermeier, L., & Dietl, K. (2020). SKZ simuliert Doppelschnecke. K Zeitung."},"year":"2020","_id":"24134","date_updated":"2022-01-06T06:56:07Z","publication_date":"2020-11-06","author":[{"last_name":"Schöppner","id":"20530","first_name":"Volker","full_name":"Schöppner, Volker"},{"first_name":"Laura","full_name":"Austermeier, Laura","last_name":"Austermeier","id":"45326"},{"last_name":"Dietl","full_name":"Dietl, Kilian","first_name":"Kilian"}],"department":[{"_id":"367"},{"_id":"9"},{"_id":"321"}],"keyword":["Compoundieren","Doppenschneckenextruder","Energieeintrag"],"publication":"K Zeitung","status":"public","date_created":"2021-09-10T08:48:00Z","publication_status":"published","user_id":"45326","title":"SKZ simuliert Doppelschnecke"},{"status":"public","date_created":"2021-09-10T09:58:09Z","author":[{"last_name":"Ramaswamy","id":"66937","first_name":"Arunselvan","full_name":"Ramaswamy, Arunselvan","orcid":"https://orcid.org/ 0000-0001-7547-8111"}],"publication":"2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP)","title":"DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme","user_id":"66937","type":"conference","year":"2020","citation":{"ieee":"A. Ramaswamy, “DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme,” in 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP), 2020, pp. 54–62.","short":"A. Ramaswamy, in: 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP), 2020, pp. 54–62.","mla":"Ramaswamy, Arunselvan. “DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme.” 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP), 2020, pp. 54–62.","bibtex":"@inproceedings{Ramaswamy_2020, title={DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme}, booktitle={2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP)}, author={Ramaswamy, Arunselvan}, year={2020}, pages={54–62} }","chicago":"Ramaswamy, Arunselvan. “DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme.” In 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP), 54–62, 2020.","apa":"Ramaswamy, A. (2020). DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme. 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP), 54–62.","ama":"Ramaswamy A. DSPG: Decentralized Simultaneous Perturbations Gradient Descent Scheme. In: 2020 28th Euromicro International Conference on Parallel, Distributed and Network-Based Processing (PDP). ; 2020:54-62."},"page":"54-62","language":[{"iso":"eng"}],"date_updated":"2022-01-06T06:56:08Z","_id":"24145"},{"user_id":"66937","title":"Constrained Multi-Agent Optimization with Unbounded Information Delay","publication":"Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020","author":[{"first_name":"Stefan Helmut","orcid":"0000-0002-9461-7372","full_name":"Heid, Stefan Helmut","last_name":"Heid","id":"39640"},{"full_name":"Ramaswamy, Arunselvan","orcid":"https://orcid.org/ 0000-0001-7547-8111","first_name":"Arunselvan","id":"66937","last_name":"Ramaswamy"},{"id":"48129","last_name":"Hüllermeier","full_name":"Hüllermeier, Eyke","first_name":"Eyke"}],"date_created":"2021-09-10T09:59:16Z","status":"public","volume":26,"date_updated":"2022-01-06T06:56:08Z","_id":"24146","intvolume":" 26","language":[{"iso":"eng"}],"page":"247","type":"conference","citation":{"short":"S.H. Heid, A. Ramaswamy, E. Hüllermeier, in: Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020, 2020, p. 247.","ieee":"S. H. Heid, A. Ramaswamy, and E. Hüllermeier, “Constrained Multi-Agent Optimization with Unbounded Information Delay,” in Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020, 2020, vol. 26, p. 247.","ama":"Heid SH, Ramaswamy A, Hüllermeier E. Constrained Multi-Agent Optimization with Unbounded Information Delay. In: Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020. Vol 26. ; 2020:247.","apa":"Heid, S. H., Ramaswamy, A., & Hüllermeier, E. (2020). Constrained Multi-Agent Optimization with Unbounded Information Delay. Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020, 26, 247.","chicago":"Heid, Stefan Helmut, Arunselvan Ramaswamy, and Eyke Hüllermeier. “Constrained Multi-Agent Optimization with Unbounded Information Delay.” In Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020, 26:247, 2020.","bibtex":"@inproceedings{Heid_Ramaswamy_Hüllermeier_2020, title={Constrained Multi-Agent Optimization with Unbounded Information Delay}, volume={26}, booktitle={Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020}, author={Heid, Stefan Helmut and Ramaswamy, Arunselvan and Hüllermeier, Eyke}, year={2020}, pages={247} }","mla":"Heid, Stefan Helmut, et al. “Constrained Multi-Agent Optimization with Unbounded Information Delay.” Proceedings-30. Workshop Computational Intelligence: Berlin, 26.-27. November 2020, vol. 26, 2020, p. 247."},"year":"2020"},{"year":"2020","type":"journal_article","citation":{"bibtex":"@article{Ramaswamy_Bhatnagar_Quevedo_2020, title={Asynchronous stochastic approximations with asymptotically biased errors and deep multi-agent learning}, journal={IEEE Transactions on Automatic Control}, publisher={IEEE}, author={Ramaswamy, Arunselvan and Bhatnagar, Shalabh and Quevedo, Daniel E}, year={2020} }","mla":"Ramaswamy, Arunselvan, et al. “Asynchronous Stochastic Approximations with Asymptotically Biased Errors and Deep Multi-Agent Learning.” IEEE Transactions on Automatic Control, IEEE, 2020.","chicago":"Ramaswamy, Arunselvan, Shalabh Bhatnagar, and Daniel E Quevedo. “Asynchronous Stochastic Approximations with Asymptotically Biased Errors and Deep Multi-Agent Learning.” IEEE Transactions on Automatic Control, 2020.","ama":"Ramaswamy A, Bhatnagar S, Quevedo DE. Asynchronous stochastic approximations with asymptotically biased errors and deep multi-agent learning. IEEE Transactions on Automatic Control. Published online 2020.","apa":"Ramaswamy, A., Bhatnagar, S., & Quevedo, D. E. (2020). Asynchronous stochastic approximations with asymptotically biased errors and deep multi-agent learning. IEEE Transactions on Automatic Control.","ieee":"A. Ramaswamy, S. Bhatnagar, and D. E. Quevedo, “Asynchronous stochastic approximations with asymptotically biased errors and deep multi-agent learning,” IEEE Transactions on Automatic Control, 2020.","short":"A. Ramaswamy, S. Bhatnagar, D.E. Quevedo, IEEE Transactions on Automatic Control (2020)."},"language":[{"iso":"eng"}],"date_updated":"2022-01-06T06:56:08Z","_id":"24147","publication":"IEEE Transactions on Automatic Control","publisher":"IEEE","author":[{"id":"66937","last_name":"Ramaswamy","full_name":"Ramaswamy, Arunselvan","orcid":"https://orcid.org/ 0000-0001-7547-8111","first_name":"Arunselvan"},{"full_name":"Bhatnagar, Shalabh","first_name":"Shalabh","last_name":"Bhatnagar"},{"last_name":"Quevedo","first_name":"Daniel E","full_name":"Quevedo, Daniel E"}],"date_created":"2021-09-10T10:01:18Z","status":"public","title":"Asynchronous stochastic approximations with asymptotically biased errors and deep multi-agent learning","user_id":"66937"},{"doi":"10.1617/s11527-020-01477-w","_id":"24182","date_updated":"2022-01-06T06:56:09Z","language":[{"iso":"eng"}],"citation":{"ieee":"M. Haist et al., “Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries,” Materials and Structures, 2020, doi: 10.1617/s11527-020-01477-w.","short":"M. Haist, J. Link, D. Nicia, S. Leinitz, C. Baumert, T. von Bronk, D. Cotardo, M. Eslami Pirharati, S. Fataei, H. Garrecht, C. Gehlen, I. Hauschildt, I. Ivanova, S. Jesinghausen, C. Klein, H.-W. Krauss, L. Lohaus, D. Lowke, O. Mazanec, S. Pawelczyk, U. Pott, N.W. Radebe, J.J. Riedmiller, H.-J. Schmid, W. Schmidt, E. Secrieru, D. Stephan, M. Thiedeitz, M. Wilhelm, V. Mechtcherine, Materials and Structures (2020).","bibtex":"@article{Haist_Link_Nicia_Leinitz_Baumert_von Bronk_Cotardo_Eslami Pirharati_Fataei_Garrecht_et al._2020, title={Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries}, DOI={10.1617/s11527-020-01477-w}, journal={Materials and Structures}, author={Haist, Michael and Link, Julian and Nicia, David and Leinitz, Sarah and Baumert, Christian and von Bronk, Tabea and Cotardo, Dario and Eslami Pirharati, Mahmoud and Fataei, Shirin and Garrecht, Harald and et al.}, year={2020} }","mla":"Haist, Michael, et al. “Interlaboratory Study on Rheological Properties of Cement Pastes and Reference Substances: Comparability of Measurements Performed with Different Rheometers and Measurement Geometries.” Materials and Structures, 2020, doi:10.1617/s11527-020-01477-w.","chicago":"Haist, Michael, Julian Link, David Nicia, Sarah Leinitz, Christian Baumert, Tabea von Bronk, Dario Cotardo, et al. “Interlaboratory Study on Rheological Properties of Cement Pastes and Reference Substances: Comparability of Measurements Performed with Different Rheometers and Measurement Geometries.” Materials and Structures, 2020. https://doi.org/10.1617/s11527-020-01477-w.","ama":"Haist M, Link J, Nicia D, et al. Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries. Materials and Structures. Published online 2020. doi:10.1617/s11527-020-01477-w","apa":"Haist, M., Link, J., Nicia, D., Leinitz, S., Baumert, C., von Bronk, T., Cotardo, D., Eslami Pirharati, M., Fataei, S., Garrecht, H., Gehlen, C., Hauschildt, I., Ivanova, I., Jesinghausen, S., Klein, C., Krauss, H.-W., Lohaus, L., Lowke, D., Mazanec, O., … Mechtcherine, V. (2020). Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries. Materials and Structures. https://doi.org/10.1617/s11527-020-01477-w"},"type":"journal_article","year":"2020","user_id":"38243","title":"Interlaboratory study on rheological properties of cement pastes and reference substances: comparability of measurements performed with different rheometers and measurement geometries","abstract":[{"text":"AbstractThis paper presents the results of an interlaboratory study of the rheological properties of cement paste and ultrasound gel as reference substance. The goal was to quantify the comparability and reproducibility of measurements of the Bingham parameters yield stress and plastic viscosity when measured on one specific paste composition and one particular ultrasound gel in different laboratories using different rheometers and measurement geometries. The procedures for both in preparing the cement paste and carrying out the rheological measurements on cement paste and ultrasound gel were carefully defined for all of the study’s participants. Different conversion schemes for comparing the results obtained with the different measurement setups are presented here and critically discussed. The procedure proposed in this paper ensured a reasonable comparability of the results with a coefficient of variation for the yield stress of 27% and for the plastic viscosity of 24%, despite the individual measurement series’ having been performed in different labs with different rheometers and measurement geometries.","lang":"eng"}],"status":"public","date_created":"2021-09-13T05:22:51Z","publication_identifier":{"issn":["1359-5997","1871-6873"]},"publication_status":"published","quality_controlled":"1","author":[{"last_name":"Haist","full_name":"Haist, Michael","first_name":"Michael"},{"full_name":"Link, Julian","first_name":"Julian","last_name":"Link"},{"last_name":"Nicia","first_name":"David","full_name":"Nicia, David"},{"full_name":"Leinitz, Sarah","first_name":"Sarah","last_name":"Leinitz"},{"first_name":"Christian","full_name":"Baumert, Christian","last_name":"Baumert"},{"full_name":"von Bronk, Tabea","first_name":"Tabea","last_name":"von Bronk"},{"last_name":"Cotardo","full_name":"Cotardo, Dario","first_name":"Dario"},{"first_name":"Mahmoud","full_name":"Eslami Pirharati, Mahmoud","last_name":"Eslami Pirharati"},{"last_name":"Fataei","full_name":"Fataei, Shirin","first_name":"Shirin"},{"full_name":"Garrecht, Harald","first_name":"Harald","last_name":"Garrecht"},{"last_name":"Gehlen","first_name":"Christoph","full_name":"Gehlen, Christoph"},{"full_name":"Hauschildt, Inga","first_name":"Inga","last_name":"Hauschildt"},{"last_name":"Ivanova","first_name":"Irina","full_name":"Ivanova, Irina"},{"full_name":"Jesinghausen, Steffen","first_name":"Steffen","last_name":"Jesinghausen"},{"first_name":"Christopher","full_name":"Klein, Christopher","last_name":"Klein"},{"full_name":"Krauss, Hans-W.","first_name":"Hans-W.","last_name":"Krauss"},{"full_name":"Lohaus, Ludger","first_name":"Ludger","last_name":"Lohaus"},{"first_name":"Dirk","full_name":"Lowke, Dirk","last_name":"Lowke"},{"last_name":"Mazanec","full_name":"Mazanec, Oliver","first_name":"Oliver"},{"last_name":"Pawelczyk","full_name":"Pawelczyk, Sebastian","first_name":"Sebastian"},{"full_name":"Pott, Ursula","first_name":"Ursula","last_name":"Pott"},{"first_name":"Nonkululeko W.","full_name":"Radebe, Nonkululeko W.","last_name":"Radebe"},{"last_name":"Riedmiller","first_name":"Joachim Jürgen","full_name":"Riedmiller, Joachim Jürgen"},{"last_name":"Schmid","first_name":"Hans-Joachim","full_name":"Schmid, Hans-Joachim"},{"full_name":"Schmidt, Wolfram","first_name":"Wolfram","last_name":"Schmidt"},{"full_name":"Secrieru, Egor","first_name":"Egor","last_name":"Secrieru"},{"last_name":"Stephan","full_name":"Stephan, Dietmar","first_name":"Dietmar"},{"full_name":"Thiedeitz, Mareike","first_name":"Mareike","last_name":"Thiedeitz"},{"first_name":"Manfred","full_name":"Wilhelm, Manfred","last_name":"Wilhelm"},{"last_name":"Mechtcherine","full_name":"Mechtcherine, Viktor","first_name":"Viktor"}],"department":[{"_id":"150"}],"publication":"Materials and Structures"},{"issue":"50","date_updated":"2022-01-06T06:56:09Z","_id":"24183","year":"2020","citation":{"bibtex":"@article{Moritzer_Wortmann_Sabantina_Klocker_Mirasol_2020, title={Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent}, number={50}, journal={JOURNAL OF INDUSTRIAL TEXTILES}, author={Moritzer, Elmar and Wortmann, M. and Sabantina, L. and Klocker, M. and Mirasol, JR}, year={2020}, pages={224–239} }","mla":"Moritzer, Elmar, et al. “Stabilization of Polyacrylonitrile Nanofiber Mats Obtained by Needleless Electrospinning Using Dimethyl Sulfoxide as Solvent.” JOURNAL OF INDUSTRIAL TEXTILES, no. 50, 2020, pp. 224–39.","apa":"Moritzer, E., Wortmann, M., Sabantina, L., Klocker, M., & Mirasol, J. (2020). Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent. JOURNAL OF INDUSTRIAL TEXTILES, 50, 224–239.","ama":"Moritzer E, Wortmann M, Sabantina L, Klocker M, Mirasol J. Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent. JOURNAL OF INDUSTRIAL TEXTILES. 2020;(50):224-239.","chicago":"Moritzer, Elmar, M. Wortmann, L. Sabantina, M. Klocker, and JR Mirasol. “Stabilization of Polyacrylonitrile Nanofiber Mats Obtained by Needleless Electrospinning Using Dimethyl Sulfoxide as Solvent.” JOURNAL OF INDUSTRIAL TEXTILES, no. 50 (2020): 224–39.","ieee":"E. Moritzer, M. Wortmann, L. Sabantina, M. Klocker, and J. Mirasol, “Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent,” JOURNAL OF INDUSTRIAL TEXTILES, no. 50, pp. 224–239, 2020.","short":"E. Moritzer, M. Wortmann, L. Sabantina, M. Klocker, J. Mirasol, JOURNAL OF INDUSTRIAL TEXTILES (2020) 224–239."},"type":"journal_article","page":"224-239","language":[{"iso":"eng"}],"title":"Stabilization of polyacrylonitrile nanofiber mats obtained by needleless electrospinning using dimethyl sulfoxide as solvent","user_id":"44116","status":"public","date_created":"2021-09-13T07:21:52Z","author":[{"first_name":"Elmar","full_name":"Moritzer, Elmar","last_name":"Moritzer","id":"20531"},{"last_name":"Wortmann","full_name":"Wortmann, M.","first_name":"M."},{"full_name":"Sabantina, L.","first_name":"L.","last_name":"Sabantina"},{"last_name":"Klocker","full_name":"Klocker, M.","first_name":"M."},{"last_name":"Mirasol","first_name":"JR","full_name":"Mirasol, JR"}],"publication":"JOURNAL OF INDUSTRIAL TEXTILES","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}]},{"citation":{"short":"E. Moritzer, F.M. Mühlhoff, E. Krampe, E. Lochbaum, Plastverarbeiter (2020) 20–23.","ieee":"E. Moritzer, F. M. Mühlhoff, E. Krampe, and E. Lochbaum, “2K-Haftverbunde aus originär inkompatiblen Kunststoffen,” Plastverarbeiter, no. 07/20, pp. 20–23, 2020.","chicago":"Moritzer, Elmar, Frederik Marvin Mühlhoff, Erhard Krampe, and Ella Lochbaum. “2K-Haftverbunde Aus Originär Inkompatiblen Kunststoffen.” Plastverarbeiter, no. 07/20 (2020): 20–23.","ama":"Moritzer E, Mühlhoff FM, Krampe E, Lochbaum E. 2K-Haftverbunde aus originär inkompatiblen Kunststoffen. Plastverarbeiter. 2020;(07/20):20-23.","apa":"Moritzer, E., Mühlhoff, F. M., Krampe, E., & Lochbaum, E. (2020). 2K-Haftverbunde aus originär inkompatiblen Kunststoffen. Plastverarbeiter, 07/20, 20–23.","mla":"Moritzer, Elmar, et al. “2K-Haftverbunde Aus Originär Inkompatiblen Kunststoffen.” Plastverarbeiter, no. 07/20, 2020, pp. 20–23.","bibtex":"@article{Moritzer_Mühlhoff_Krampe_Lochbaum_2020, title={2K-Haftverbunde aus originär inkompatiblen Kunststoffen}, number={07/20}, journal={Plastverarbeiter}, author={Moritzer, Elmar and Mühlhoff, Frederik Marvin and Krampe, Erhard and Lochbaum, Ella}, year={2020}, pages={20–23} }"},"year":"2020","type":"journal_article","page":"20-23","language":[{"iso":"eng"}],"issue":"07/20","_id":"24184","date_updated":"2022-01-06T06:56:09Z","publication_identifier":{"unknown":["0032-1338"]},"status":"public","date_created":"2021-09-13T07:33:53Z","author":[{"last_name":"Moritzer","id":"20531","first_name":"Elmar","full_name":"Moritzer, Elmar"},{"full_name":"Mühlhoff, Frederik Marvin","first_name":"Frederik Marvin","id":"41312","last_name":"Mühlhoff"},{"last_name":"Krampe","first_name":"Erhard","full_name":"Krampe, Erhard"},{"last_name":"Lochbaum","first_name":"Ella","full_name":"Lochbaum, Ella"}],"department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"publication":"Plastverarbeiter","title":"2K-Haftverbunde aus originär inkompatiblen Kunststoffen","user_id":"44116"},{"_id":"24201","date_updated":"2022-01-06T06:56:10Z","conference":{"location":"Berlin","name":"Direct Digital Manufacturing Conference 2020"},"citation":{"apa":"Moritzer, E., Kartelmeyer, S., & Hüttemann, V. (2020). Additive Manufactured Heat Pipe Injection Mould Element. Direct Digital Manufacturing Conference 2020. Direct Digital Manufacturing Conference 2020, Berlin.","ama":"Moritzer E, Kartelmeyer S, Hüttemann V. Additive Manufactured Heat Pipe Injection Mould Element. In: Direct Digital Manufacturing Conference 2020. ; 2020.","chicago":"Moritzer, Elmar, Stephan Kartelmeyer, and Vincent Hüttemann. “Additive Manufactured Heat Pipe Injection Mould Element.” In Direct Digital Manufacturing Conference 2020. Berlin, 2020.","mla":"Moritzer, Elmar, et al. “Additive Manufactured Heat Pipe Injection Mould Element.” Direct Digital Manufacturing Conference 2020, 2020.","bibtex":"@inproceedings{Moritzer_Kartelmeyer_Hüttemann_2020, place={Berlin}, title={Additive Manufactured Heat Pipe Injection Mould Element}, booktitle={Direct Digital Manufacturing Conference 2020}, author={Moritzer, Elmar and Kartelmeyer, Stephan and Hüttemann, Vincent }, year={2020} }","short":"E. Moritzer, S. Kartelmeyer, V. Hüttemann, in: Direct Digital Manufacturing Conference 2020, Berlin, 2020.","ieee":"E. Moritzer, S. Kartelmeyer, and V. Hüttemann, “Additive Manufactured Heat Pipe Injection Mould Element,” presented at the Direct Digital Manufacturing Conference 2020, Berlin, 2020."},"type":"conference","year":"2020","language":[{"iso":"eng"}],"place":"Berlin","title":"Additive Manufactured Heat Pipe Injection Mould Element","user_id":"44116","author":[{"full_name":"Moritzer, Elmar","first_name":"Elmar","id":"20531","last_name":"Moritzer"},{"last_name":"Kartelmeyer","full_name":"Kartelmeyer, Stephan ","first_name":"Stephan "},{"last_name":"Hüttemann","first_name":"Vincent ","full_name":"Hüttemann, Vincent "}],"department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"publication":"Direct Digital Manufacturing Conference 2020","status":"public","date_created":"2021-09-13T07:47:08Z"},{"date_updated":"2022-01-06T06:56:13Z","_id":"24203","conference":{"name":"6. 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Fachkonferenz 3D-Druck in Der Automobielindustrie, 2020.","short":"E. Moritzer, J. Hillemeyer, in: 6. Fachkonferenz 3D-Druck in Der Automobielindustrie, Hamburg, 2020.","ieee":"E. Moritzer and J. Hillemeyer, “Additiveteile Direktverschrauben,” presented at the 6. Fachkonferenz 3D-Druck in der Automobielindustrie, Hamburg, 2020."},"language":[{"iso":"eng"}],"place":"Hamburg","title":"Additiveteile Direktverschrauben","user_id":"44116","author":[{"full_name":"Moritzer, Elmar","first_name":"Elmar","id":"20531","last_name":"Moritzer"},{"last_name":"Hillemeyer","id":"27285","first_name":"Johannes","full_name":"Hillemeyer, Johannes"}],"department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"publication":"6. Fachkonferenz 3D-Druck in der Automobielindustrie","status":"public","date_created":"2021-09-13T07:50:26Z"},{"date_updated":"2022-01-06T06:56:13Z","_id":"24204","citation":{"chicago":"Schöppner, Volker, M. Dörner, and C. Marschik. ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION, 2020.","ama":"Schöppner V, Dörner M, Marschik C. ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION.; 2020.","apa":"Schöppner, V., Dörner, M., & Marschik, C. (2020). ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION.","bibtex":"@book{Schöppner_Dörner_Marschik_2020, title={ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION}, author={Schöppner, Volker and Dörner, M. and Marschik, C.}, year={2020} }","mla":"Schöppner, Volker, et al. ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION. 2020.","short":"V. Schöppner, M. Dörner, C. Marschik, ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION, 2020.","ieee":"V. Schöppner, M. Dörner, and C. Marschik, ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION. 2020."},"type":"misc","year":"2020","language":[{"iso":"eng"}],"title":"ANALYSIS OF THE ADVANTAGEOUS PROCESS AND MIXING BEHAVIOUR OF WAVE-DISPERSION SCREWS IN SINGLE SCREW EXTRUSION","user_id":"44116","date_created":"2021-09-13T07:54:29Z","status":"public","department":[{"_id":"9"},{"_id":"367"},{"_id":"321"}],"author":[{"first_name":"Volker","full_name":"Schöppner, Volker","last_name":"Schöppner","id":"20530"},{"full_name":"Dörner, M.","first_name":"M.","last_name":"Dörner"},{"full_name":"Marschik, C.","first_name":"C.","last_name":"Marschik"}]},{"author":[{"first_name":"Elmar","full_name":"Moritzer, Elmar","last_name":"Moritzer","id":"20531"},{"last_name":"Hillemeyer","id":"27285","first_name":"Johannes","full_name":"Hillemeyer, Johannes"}],"publication":"10. 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Gemeinschaftskolloquium, WebKolloquium (Deutschland).","chicago":"Moritzer, Elmar, and Johannes Hillemeyer. “Ansatz Zur Sicheren Direktverschraubung Additiv Gefertigter Einschraubtuben.” In 10. Gemeinschaftskolloquium, 2020.","mla":"Moritzer, Elmar, and Johannes Hillemeyer. “Ansatz Zur Sicheren Direktverschraubung Additiv Gefertigter Einschraubtuben.” 10. Gemeinschaftskolloquium, 2020.","bibtex":"@inproceedings{Moritzer_Hillemeyer_2020, title={Ansatz zur sicheren Direktverschraubung additiv gefertigter Einschraubtuben}, booktitle={10. Gemeinschaftskolloquium}, author={Moritzer, Elmar and Hillemeyer, Johannes}, year={2020} }"},"language":[{"iso":"eng"}],"date_updated":"2022-01-06T06:56:13Z","_id":"24206","conference":{"name":"10. Gemeinschaftskolloquium","location":"WebKolloquium (Deutschland)"}},{"page":"1900","type":"journal_article","year":"2020","citation":{"ieee":"V. Schöppner, M. Dörner, C. Marschik, W. Roland, S. Schaufler, and G. Steinbichler, “Application of Network Analysis to Flow Systems with Alternating Wave Channels: Part B. (Superimposed Drag-Pressure Flows in Extrusion),” Polymers, no. 12(9), p. 1900, 2020.","short":"V. Schöppner, M. Dörner, C. Marschik, W. Roland, S. Schaufler, G. Steinbichler, Polymers (2020) 1900.","mla":"Schöppner, Volker, et al. “Application of Network Analysis to Flow Systems with Alternating Wave Channels: Part B. (Superimposed Drag-Pressure Flows in Extrusion).” Polymers, no. 12(9), 2020, p. 1900.","bibtex":"@article{Schöppner_Dörner_Marschik_Roland_Schaufler_Steinbichler_2020, title={Application of Network Analysis to Flow Systems with Alternating Wave Channels: Part B. (Superimposed Drag-Pressure Flows in Extrusion)}, number={12(9)}, journal={Polymers}, author={Schöppner, Volker and Dörner, M. and Marschik, C. and Roland, W. and Schaufler, S. and Steinbichler, G.}, year={2020}, pages={1900} }","chicago":"Schöppner, Volker, M. Dörner, C. Marschik, W. Roland, S. 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In this article, we will describe the fundamental design considerations for a hot wall reactor system able to produce oxide nanoparticles. The system is outstanding in its ability to produce mostly spherical nanoparticles at particle sizes of up to 100 nm and even larger at mass outputs in the order of grams per hour by being able to rapidly quench the aerosol. While high production rates or larger particle sizes are already easily obtained with hot wall reactors, it is very challenging to produce these spherical particles at high mass rates. We will show in this research that the temperature and the particle number concentration are the major aspects influencing the particle morphology at the end of the process. Investigation on the performance of the setup shows good control over the temperature and the particle production stability. A representative particle characterization using SEM and scanning mobility particle sizer showed that particles are mostly spherical, while the particle size distribution had a geometric standard deviation close to 1.5. In addition to the aspects mentioned above, a possibility to manipulate the aggregation downstream of the reactor is to be presented as well. We found that applying electrical charges to the aerosol particles (in opposite polarity) can significantly foster aggregation."}],"user_id":"464","author":[{"first_name":"David B.","full_name":"Rasche, David B.","last_name":"Rasche"},{"last_name":"Tigges","full_name":"Tigges, Lena","first_name":"Lena"},{"last_name":"Schmid","id":"464","first_name":"Hans-Joachim","full_name":"Schmid, Hans-Joachim"}],"publisher":"AIP Publishing","quality_controlled":"1","publication":"Review of Scientific Instruments","volume":91,"status":"public","date_created":"2021-09-13T08:59:12Z","_id":"24241","intvolume":" 91","type":"journal_article","citation":{"short":"D.B. Rasche, L. Tigges, H.-J. Schmid, Review of Scientific Instruments 91 (2020) 055104.","ieee":"D. B. Rasche, L. Tigges, and H.-J. 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