[{"date_created":"2022-02-21T16:42:30Z","author":[{"id":"34289","full_name":"Unruh, Roland","last_name":"Unruh","first_name":"Roland"},{"full_name":"Schafmeister, Frank","id":"71291","last_name":"Schafmeister","first_name":"Frank"},{"first_name":"Norbert","full_name":"Fröhleke, Norbert","last_name":"Fröhleke"},{"first_name":"Joachim","full_name":"Böcker, Joachim","id":"66","last_name":"Böcker","orcid":"0000-0002-8480-7295"}],"date_updated":"2023-10-20T11:52:39Z","publisher":"VDE","conference":{"end_date":"2020-07-08","location":"Germany","name":"PCIM Europe digital days 2020","start_date":"2020-07-07"},"main_file_link":[{"url":"https://ieeexplore.ieee.org/abstract/document/9178138"}],"title":"1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications","publication_identifier":{"isbn":["978-3-8007-5245-4"]},"publication_status":"published","citation":{"mla":"Unruh, Roland, et al. “1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications.” PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, VDE, 2020.","bibtex":"@inproceedings{Unruh_Schafmeister_Fröhleke_Böcker_2020, title={1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications}, booktitle={PCIM Europe digital days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management}, publisher={VDE}, author={Unruh, Roland and Schafmeister, Frank and Fröhleke, Norbert and Böcker, Joachim}, year={2020} }","short":"R. Unruh, F. Schafmeister, N. Fröhleke, J. Böcker, in: PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, VDE, 2020.","apa":"Unruh, R., Schafmeister, F., Fröhleke, N., & Böcker, J. (2020). 1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications. PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management. PCIM Europe digital days 2020, Germany.","chicago":"Unruh, Roland, Frank Schafmeister, Norbert Fröhleke, and Joachim Böcker. “1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications.” In PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management. VDE, 2020.","ieee":"R. Unruh, F. Schafmeister, N. Fröhleke, and J. Böcker, “1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications,” presented at the PCIM Europe digital days 2020, Germany, 2020.","ama":"Unruh R, Schafmeister F, Fröhleke N, Böcker J. 1-MW Full-Bridge MMC for High-Current Low-Voltage (100V-400V) DC-Applications. In: PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management. VDE; 2020."},"year":"2020","department":[{"_id":"52"}],"user_id":"34289","_id":"29940","language":[{"iso":"eng"}],"keyword":["Cascaded H-Bridge","Solid-State Transformer","Capacitor voltage ripple","Zero sequence voltage","Full-Bridge"],"publication":"PCIM Europe digital days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management","type":"conference","status":"public","abstract":[{"lang":"eng","text":"A full-bridge modular multilevel converter (MMC) is compared to a half-bridge-based MMC for high-current low-voltage DC-applications such as electrolysis, arc welding or datacenters with DC-power distribution. Usually, modular multilevel converters are used in high-voltage DC-applications (HVDC) in the multiple kV-range, but to meet the needs of a high-current demand at low output voltage levels, the modular converter concept requires adaptations. In the proposed concept, the MMC is used to step-down the three-phase medium-voltage of 10 kV. Therefore, each module is extended by an LLC resonant converter to adapt to the specific electrolyzers DC-voltage range of 142-220V and to provide galvanic isolation. The proposed MMC converter with full-bridge modules uses half the number of modules compared to a half-bridge-based MMC while reducing the voltage ripple by 78% and capacitor losses by 64% by rearranging the same components to ensure identical costs and volume. For additional reliability, a new robust algorithm for balancing conduction losses during the bypass phase is presented."}]},{"year":"2020","page":"1-7","citation":{"ieee":"B. Strothmann, T. Piepenbrock, F. Schafmeister, and J. Böcker, “Heat dissipation strategies for silicon carbide power SMDs and their use in different applications,” in PCIM Europe digital days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, 2020, pp. 1–7.","chicago":"Strothmann, Benjamin, Till Piepenbrock, Frank Schafmeister, and Joachim Böcker. “Heat Dissipation Strategies for Silicon Carbide Power SMDs and Their Use in Different Applications.” In PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, 1–7, 2020.","ama":"Strothmann B, Piepenbrock T, Schafmeister F, Böcker J. Heat dissipation strategies for silicon carbide power SMDs and their use in different applications. In: PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management. ; 2020:1-7.","short":"B. Strothmann, T. Piepenbrock, F. Schafmeister, J. Böcker, in: PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, 2020, pp. 1–7.","bibtex":"@inproceedings{Strothmann_Piepenbrock_Schafmeister_Böcker_2020, title={Heat dissipation strategies for silicon carbide power SMDs and their use in different applications}, booktitle={PCIM Europe digital days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management}, author={Strothmann, Benjamin and Piepenbrock, Till and Schafmeister, Frank and Böcker, Joachim}, year={2020}, pages={1–7} }","mla":"Strothmann, Benjamin, et al. “Heat Dissipation Strategies for Silicon Carbide Power SMDs and Their Use in Different Applications.” PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, 2020, pp. 1–7.","apa":"Strothmann, B., Piepenbrock, T., Schafmeister, F., & Böcker, J. (2020). Heat dissipation strategies for silicon carbide power SMDs and their use in different applications. PCIM Europe Digital Days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management, 1–7."},"publication_status":"published","title":"Heat dissipation strategies for silicon carbide power SMDs and their use in different applications","date_updated":"2023-10-20T12:23:18Z","date_created":"2022-02-23T14:14:58Z","author":[{"first_name":"Benjamin","id":"22556","full_name":"Strothmann, Benjamin","last_name":"Strothmann"},{"last_name":"Piepenbrock","full_name":"Piepenbrock, Till","first_name":"Till"},{"full_name":"Schafmeister, Frank","id":"71291","last_name":"Schafmeister","first_name":"Frank"},{"first_name":"Joachim","full_name":"Böcker, Joachim","id":"66","last_name":"Böcker","orcid":"0000-0002-8480-7295"}],"abstract":[{"lang":"eng","text":"Heat dissipation is a limiting factor in the performance of many power electronic components. Especially in the TO-263-7 package, which is used for several SiC-MOSFETs, the heat transfer must take place through the cross section of the printed circuit board (PCB) to the heatsink at the bottom side. Most commonly, thermal vias are used to form this path in a perpendicular direction through all PCB-layers. In a given soft- and hard switched example applications with the use of C3M0065090J SiC-MOSFETs, this conventional approach limited the component’s maximum heat dissipation to approx. 13 W. A recent alternative approach are massive copper blocks (”pedestals”) being integrated in PCBs and reaching from their top- to the bottom-side in relevant footprint areas under SMD-housed power semiconductors. Pedestals allowing to increase the heat dissipation in the given case to even 36 W. This step is achieved due to the clearly superior heat spreading capability of that massive thermal connection between SiC-MOSFET and heatsink. For the hard switched example application the number of switch-elements can be halved to one, by using the pedestal instead of thermal vias. Independently of optimizing the heat transfer path, the up-front avoidance of losses helps to stay within existing heat dissipation limits, of course. The dominant conduction losses of the mentioned soft-switched example application could be halved by changing to SiC-MOSFET types with significant lowered RDSon. By using pedestals and changing to SiC-MOSFETs with lowered RDSon, the number of switch-elements can also be halved for the soft switched application."}],"status":"public","publication":"PCIM Europe digital days 2020; International Exhibition and Conference for Power Electronics, Intelligent Motion, Renewable Energy and Energy Management","type":"conference","language":[{"iso":"eng"}],"_id":"30001","department":[{"_id":"52"}],"user_id":"66"},{"language":[{"iso":"eng"}],"ddc":["000"],"license":"https://creativecommons.org/publicdomain/zero/1.0/","file":[{"relation":"main_file","content_type":"application/pdf","access_level":"open_access","file_name":"INTERSPEECH_2020_vonNeumann1_Paper.pdf","file_id":"20767","file_size":1725219,"date_created":"2020-12-16T14:16:32Z","creator":"huesera","date_updated":"2020-12-16T14:16:32Z"}],"abstract":[{"text":"Recently, the source separation performance was greatly improved by time-domain audio source separation based on dual-path recurrent neural network (DPRNN). DPRNN is a simple but effective model for a long sequential data. While DPRNN is quite efficient in modeling a sequential data of the length of an utterance, i.e., about 5 to 10 second data, it is harder to apply it to longer sequences such as whole conversations consisting of multiple utterances. It is simply because, in such a case, the number of time steps consumed by its internal module called inter-chunk RNN becomes extremely large. To mitigate this problem, this paper proposes a multi-path RNN (MPRNN), a generalized version of DPRNN, that models the input data in a hierarchical manner. In the MPRNN framework, the input data is represented at several (>_ 3) time-resolutions, each of which is modeled by a specific RNN sub-module. For example, the RNN sub-module that deals with the finest resolution may model temporal relationship only within a phoneme, while the RNN sub-module handling the most coarse resolution may capture only the relationship between utterances such as speaker information. We perform experiments using simulated dialogue-like mixtures and show that MPRNN has greater model capacity, and it outperforms the current state-of-the-art DPRNN framework especially in online processing scenarios.","lang":"eng"}],"publication":"Proc. Interspeech 2020","title":"Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and its Application to Speaker Stream Separation","date_created":"2020-12-16T14:15:24Z","year":"2020","quality_controlled":"1","file_date_updated":"2020-12-16T14:16:32Z","department":[{"_id":"54"}],"user_id":"49870","_id":"20766","status":"public","type":"conference","doi":"10.21437/Interspeech.2020-2388","author":[{"first_name":"Keisuke","last_name":"Kinoshita","full_name":"Kinoshita, Keisuke"},{"full_name":"von Neumann, Thilo","id":"49870","last_name":"von Neumann","orcid":"https://orcid.org/0000-0002-7717-8670","first_name":"Thilo"},{"full_name":"Delcroix, Marc","last_name":"Delcroix","first_name":"Marc"},{"first_name":"Tomohiro","last_name":"Nakatani","full_name":"Nakatani, Tomohiro"},{"first_name":"Reinhold","last_name":"Haeb-Umbach","full_name":"Haeb-Umbach, Reinhold","id":"242"}],"oa":"1","date_updated":"2023-11-15T12:14:25Z","page":"2652-2656","citation":{"mla":"Kinoshita, Keisuke, et al. “Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and Its Application to Speaker Stream Separation.” Proc. Interspeech 2020, 2020, pp. 2652–56, doi:10.21437/Interspeech.2020-2388.","short":"K. Kinoshita, T. von Neumann, M. Delcroix, T. Nakatani, R. Haeb-Umbach, in: Proc. Interspeech 2020, 2020, pp. 2652–2656.","bibtex":"@inproceedings{Kinoshita_von Neumann_Delcroix_Nakatani_Haeb-Umbach_2020, title={Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and its Application to Speaker Stream Separation}, DOI={10.21437/Interspeech.2020-2388}, booktitle={Proc. Interspeech 2020}, author={Kinoshita, Keisuke and von Neumann, Thilo and Delcroix, Marc and Nakatani, Tomohiro and Haeb-Umbach, Reinhold}, year={2020}, pages={2652–2656} }","apa":"Kinoshita, K., von Neumann, T., Delcroix, M., Nakatani, T., & Haeb-Umbach, R. (2020). Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and its Application to Speaker Stream Separation. Proc. Interspeech 2020, 2652–2656. https://doi.org/10.21437/Interspeech.2020-2388","ama":"Kinoshita K, von Neumann T, Delcroix M, Nakatani T, Haeb-Umbach R. Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and its Application to Speaker Stream Separation. In: Proc. Interspeech 2020. ; 2020:2652-2656. doi:10.21437/Interspeech.2020-2388","ieee":"K. Kinoshita, T. von Neumann, M. Delcroix, T. Nakatani, and R. Haeb-Umbach, “Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and its Application to Speaker Stream Separation,” in Proc. Interspeech 2020, 2020, pp. 2652–2656, doi: 10.21437/Interspeech.2020-2388.","chicago":"Kinoshita, Keisuke, Thilo von Neumann, Marc Delcroix, Tomohiro Nakatani, and Reinhold Haeb-Umbach. “Multi-Path RNN for Hierarchical Modeling of Long Sequential Data and Its Application to Speaker Stream Separation.” In Proc. Interspeech 2020, 2652–56, 2020. https://doi.org/10.21437/Interspeech.2020-2388."},"has_accepted_license":"1"},{"language":[{"iso":"eng"}],"ddc":["000"],"publication":"Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020)","file":[{"date_updated":"2020-12-16T08:57:22Z","date_created":"2020-12-16T08:57:22Z","creator":"huesera","file_size":108326,"file_name":"DCASE2020Workshop_Ebbers_Paper.pdf","access_level":"open_access","file_id":"20754","content_type":"application/pdf","relation":"main_file"}],"abstract":[{"lang":"eng","text":"In this paper we present our system for the detection and classification of acoustic scenes and events (DCASE) 2020 Challenge Task 4: Sound event detection and separation in domestic environments. We introduce two new models: the forward-backward convolutional recurrent neural network (FBCRNN) and the tag-conditioned convolutional neural network (CNN). The FBCRNN employs two recurrent neural network (RNN) classifiers sharing the same CNN for preprocessing. With one RNN processing a recording in forward direction and the other in backward direction, the two networks are trained to jointly predict audio tags, i.e., weak labels, at each time step within a recording, given that at each time step they have jointly processed the whole recording. The proposed training encourages the classifiers to tag events as soon as possible. Therefore, after training, the networks can be applied to shorter audio segments of, e.g., 200ms, allowing sound event detection (SED). Further, we propose a tag-conditioned CNN to complement SED. It is trained to predict strong labels while using (predicted) tags, i.e., weak labels, as additional input. For training pseudo strong labels from a FBCRNN ensemble are used. The presented system scored the fourth and third place in the systems and teams rankings, respectively. Subsequent improvements allow our system to even outperform the challenge baseline and winner systems in average by, respectively, 18.0% and 2.2% event-based F1-score on the validation set. Source code is publicly available at https://github.com/fgnt/pb_sed."}],"date_created":"2020-12-16T08:55:27Z","title":"Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection","quality_controlled":"1","year":"2020","department":[{"_id":"54"}],"user_id":"34851","_id":"20753","project":[{"_id":"52","name":"PC2: Computing Resources Provided by the Paderborn Center for Parallel Computing"}],"file_date_updated":"2020-12-16T08:57:22Z","type":"conference","status":"public","author":[{"id":"34851","full_name":"Ebbers, Janek","last_name":"Ebbers","first_name":"Janek"},{"first_name":"Reinhold","last_name":"Haeb-Umbach","full_name":"Haeb-Umbach, Reinhold","id":"242"}],"oa":"1","date_updated":"2023-11-22T08:27:32Z","has_accepted_license":"1","citation":{"ieee":"J. Ebbers and R. Haeb-Umbach, “Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection,” 2020.","chicago":"Ebbers, Janek, and Reinhold Haeb-Umbach. “Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection.” In Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020), 2020.","ama":"Ebbers J, Haeb-Umbach R. Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection. In: Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020). ; 2020.","mla":"Ebbers, Janek, and Reinhold Haeb-Umbach. “Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection.” Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020), 2020.","short":"J. Ebbers, R. Haeb-Umbach, in: Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020), 2020.","bibtex":"@inproceedings{Ebbers_Haeb-Umbach_2020, title={Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection}, booktitle={Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020)}, author={Ebbers, Janek and Haeb-Umbach, Reinhold}, year={2020} }","apa":"Ebbers, J., & Haeb-Umbach, R. (2020). Forward-Backward Convolutional Recurrent Neural Networks and Tag-Conditioned Convolutional Neural Networks for Weakly Labeled Semi-Supervised Sound Event Detection. Proceedings of the Detection and Classification of Acoustic Scenes and Events 2020 Workshop (DCASE2020)."}},{"type":"conference","status":"public","department":[{"_id":"49"}],"user_id":"15911","_id":"51879","language":[{"iso":"eng"}],"publication_status":"published","citation":{"ieee":"M. Poeplau, S. Ester, B. Henning, and T. Wagner, “Zinkoxid als photostabiler Luminophor zur optischen Sauerstoffdetektion,” 2020, doi: 10.5162/sensoren2019/5.2.3.","chicago":"Poeplau, Michael, Stephan Ester, Bernd Henning, and Thorsten Wagner. “Zinkoxid Als Photostabiler Luminophor Zur Optischen Sauerstoffdetektion.” AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf, 2020. https://doi.org/10.5162/sensoren2019/5.2.3.","ama":"Poeplau M, Ester S, Henning B, Wagner T. Zinkoxid als photostabiler Luminophor zur optischen Sauerstoffdetektion. In: AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf; 2020. doi:10.5162/sensoren2019/5.2.3","apa":"Poeplau, M., Ester, S., Henning, B., & Wagner, T. (2020). Zinkoxid als photostabiler Luminophor zur optischen Sauerstoffdetektion. https://doi.org/10.5162/sensoren2019/5.2.3","bibtex":"@inproceedings{Poeplau_Ester_Henning_Wagner_2020, title={Zinkoxid als photostabiler Luminophor zur optischen Sauerstoffdetektion}, DOI={10.5162/sensoren2019/5.2.3}, publisher={AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf}, author={Poeplau, Michael and Ester, Stephan and Henning, Bernd and Wagner, Thorsten}, year={2020} }","mla":"Poeplau, Michael, et al. Zinkoxid Als Photostabiler Luminophor Zur Optischen Sauerstoffdetektion. AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf, 2020, doi:10.5162/sensoren2019/5.2.3.","short":"M. Poeplau, S. Ester, B. Henning, T. Wagner, in: AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf, 2020."},"year":"2020","date_created":"2024-02-26T12:13:04Z","author":[{"first_name":"Michael","full_name":"Poeplau, Michael","last_name":"Poeplau"},{"last_name":"Ester","full_name":"Ester, Stephan","first_name":"Stephan"},{"first_name":"Bernd","last_name":"Henning","id":"213","full_name":"Henning, Bernd"},{"first_name":"Thorsten","last_name":"Wagner","full_name":"Wagner, Thorsten"}],"publisher":"AMA Service GmbH, Von-Münchhausen-Str. 49, 31515 Wunstorf","date_updated":"2024-02-26T12:17:27Z","doi":"10.5162/sensoren2019/5.2.3","title":"Zinkoxid als photostabiler Luminophor zur optischen Sauerstoffdetektion"},{"publication_identifier":{"issn":["0018-9545","1939-9359"]},"publication_status":"published","issue":"10","year":"2020","page":"11632-11645","intvolume":" 69","citation":{"ama":"Soleymani M, Santamaria I, Schreier PJ. Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments. IEEE Transactions on Vehicular Technology. 2020;69(10):11632-11645. doi:10.1109/tvt.2020.3015558","chicago":"Soleymani, Mohammad, Ignacio Santamaria, and Peter J. Schreier. “Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments.” IEEE Transactions on Vehicular Technology 69, no. 10 (2020): 11632–45. https://doi.org/10.1109/tvt.2020.3015558.","ieee":"M. Soleymani, I. Santamaria, and P. J. Schreier, “Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments,” IEEE Transactions on Vehicular Technology, vol. 69, no. 10, pp. 11632–11645, 2020, doi: 10.1109/tvt.2020.3015558.","apa":"Soleymani, M., Santamaria, I., & Schreier, P. J. (2020). Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments. IEEE Transactions on Vehicular Technology, 69(10), 11632–11645. https://doi.org/10.1109/tvt.2020.3015558","mla":"Soleymani, Mohammad, et al. “Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments.” IEEE Transactions on Vehicular Technology, vol. 69, no. 10, Institute of Electrical and Electronics Engineers (IEEE), 2020, pp. 11632–45, doi:10.1109/tvt.2020.3015558.","bibtex":"@article{Soleymani_Santamaria_Schreier_2020, title={Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments}, volume={69}, DOI={10.1109/tvt.2020.3015558}, number={10}, journal={IEEE Transactions on Vehicular Technology}, publisher={Institute of Electrical and Electronics Engineers (IEEE)}, author={Soleymani, Mohammad and Santamaria, Ignacio and Schreier, Peter J.}, year={2020}, pages={11632–11645} }","short":"M. Soleymani, I. Santamaria, P.J. Schreier, IEEE Transactions on Vehicular Technology 69 (2020) 11632–11645."},"publisher":"Institute of Electrical and Electronics Engineers (IEEE)","date_updated":"2024-04-05T13:22:19Z","volume":69,"date_created":"2024-04-05T09:05:11Z","author":[{"full_name":"Soleymani, Mohammad","last_name":"Soleymani","first_name":"Mohammad"},{"full_name":"Santamaria, Ignacio","last_name":"Santamaria","first_name":"Ignacio"},{"first_name":"Peter J.","full_name":"Schreier, Peter J.","last_name":"Schreier"}],"title":"Improper Gaussian Signaling for the $K$-User MIMO Interference Channels With Hardware Impairments","doi":"10.1109/tvt.2020.3015558","publication":"IEEE Transactions on Vehicular Technology","type":"journal_article","status":"public","_id":"53270","department":[{"_id":"263"}],"user_id":"67076","keyword":["Electrical and Electronic Engineering","Computer Networks and Communications","Aerospace Engineering","Automotive Engineering"],"language":[{"iso":"eng"}]},{"publisher":"IEEE","date_updated":"2024-04-05T13:21:59Z","date_created":"2024-04-05T09:05:01Z","author":[{"first_name":"Mohammad","last_name":"Soleymani","full_name":"Soleymani, Mohammad"},{"full_name":"Santamaria, Ignacio","last_name":"Santamaria","first_name":"Ignacio"},{"first_name":"Behrouz","full_name":"Maham, Behrouz","last_name":"Maham"},{"full_name":"Schreier, Peter J.","last_name":"Schreier","first_name":"Peter J."}],"title":"Rate Region of the K-user MIMO Interference Channel with Imperfect Transmitters","doi":"10.23919/eusipco47968.2020.9287450","publication_status":"published","year":"2020","citation":{"chicago":"Soleymani, Mohammad, Ignacio Santamaria, Behrouz Maham, and Peter J. Schreier. “Rate Region of the K-User MIMO Interference Channel with Imperfect Transmitters.” In 2020 28th European Signal Processing Conference (EUSIPCO). IEEE, 2020. https://doi.org/10.23919/eusipco47968.2020.9287450.","ieee":"M. Soleymani, I. Santamaria, B. Maham, and P. J. Schreier, “Rate Region of the K-user MIMO Interference Channel with Imperfect Transmitters,” 2020, doi: 10.23919/eusipco47968.2020.9287450.","ama":"Soleymani M, Santamaria I, Maham B, Schreier PJ. Rate Region of the K-user MIMO Interference Channel with Imperfect Transmitters. In: 2020 28th European Signal Processing Conference (EUSIPCO). IEEE; 2020. doi:10.23919/eusipco47968.2020.9287450","apa":"Soleymani, M., Santamaria, I., Maham, B., & Schreier, P. J. (2020). 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