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1,524 results on '"Straßer, P"'

1. Engineering and Validating Cyber-Physical Energy Systems: Needs, Status Quo, and Research Trends

Author

Strasser, Thomas I. and Andrén, Filip Pröstl

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

A driving force for the realization of a sustainable energy supply is the integration of renewable energy resources. Due to their stochastic generation behaviour, energy utilities are confronted with a more complex operation of the underlying power grids. Additionally, due to technology developments, controllable loads, integration with other energy sources, changing regulatory rules, and the market liberalization, the systems operation needs adaptation. Proper operational concepts and intelligent automation provide the basis to turn the existing power system into an intelligent entity, a cyber-physical energy system. The electric energy system is therefore moving from a single system to a system of systems. While reaping the benefits with new intelligent behaviors, it is expected that system-level developments, architectural concepts, advanced automation and control as well as the validation and testing will play a significantly larger role in realizing future solutions and technologies. The implementation and deployment of these complex systems of systems are associated with increasing engineering complexity resulting also in increased engineering costs. Proper engineering and validation approaches, concepts, and tools are partly missing until now. Therefore, this paper discusses and summarizes the main needs and requirements as well as the status quo in research and development related to the engineering and validation of cyber-physical energy systems. Also research trends and necessary future activities are outlined., Comment: 9th International Conference on Industrial Applications of Holonic and Multi-Agent Systems (HoloMAS 2019)

Published
2025
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2. Precision measurements of muonium and muonic helium hyperfine structure at J-PARC

Author

Strasser, Patrick, Abe, Mitsushi, Asai, Kanta, Fukumura, Seiso, Fushihara, Mahiro, Goto, Yu, Ino, Takashi, Iwai, Ryoto, Kanda, Sohtaro, Kawamura, Shiori, Kitaguchi, Masaaki, Nishimura, Shoichiro, Oku, Takayuki, Okudaira, Takuya, Powell, Adam, Sasaki, Ken-ichi, Shimizu, Hirohiko M., Shimomura, Koichiro, Tada, Hiroki, Torii, Hiroyuki A., Yamanaka, Takashi, and Yamazaki, Takayuki

Subjects
Physics - Atomic Physics
Abstract

At the J-PARC Muon Science Facility (MUSE), the MuSEUM collaboration is now performing new precision measurements of the ground state hyperfine structure (HFS) of both muonium and muonic helium atoms. High-precision measurements of the muonium ground-state HFS are recognized as one of the most sensitive tools for testing bound-state quantum electrodynamics theory to precisely probe the standard model and determine fundamental constants of the positive muon magnetic moment and mass. The same technique can also be employed to measure muonic helium HFS, obtain the negative muon magnetic moment and mass, and test and improve the theory of the three-body atomic system. Measurements at zero magnetic field have already yielded more accurate results than previous experiments for both muonium and muonic helium atoms. High-field measurements are now ready to start collecting data using the world's most intense pulsed muon beam at the MUSE H-line. We aim to improve the precision of previous measurements ten times for muonium and a hundred times or more for muonic helium. We review all the key developments for these new measurements, focusing on the high-field experiment, and report the latest results and prospects., Comment: Proc. PSAS'2024

Published
2025

3. Combining Brillouin Light Scattering Spectroscopy and Machine-Learned Interatomic Potentials to Probe Mechanical Properties of Metal-Organic Frameworks.

Author

Lindner, Florian, Strasser, Nina, Schultze, Martin, Wieser, Sandro, Slugovc, Christian, Elsayad, Kareem, Koski, Kristie, Zojer, Egbert, and Czibula, Caterina

Abstract

The mechanical properties of metal-organic frameworks (MOFs) are of high fundamental and practical relevance. A particularly intriguing technique for determining anisotropic elastic tensors is Brillouin scattering, which so far has rarely been used for highly complex materials like MOFs. In the present contribution, we apply this technique to study a newly synthesized MOF-type material, referred to as GUT2. The experiments are combined with state-of-the-art simulations of elastic properties and phonon bands, which are based on machine-learning force fields and dispersion-corrected density functional theory. This provides a comprehensive understanding of the experimental signals, which can be correlated to the longitudinal and transverse sound velocities of the material. Notably, the combination of the insights from simulations and experiments allows the determination of approximate values for the components of the elastic tensor of the studied material even when dealing with comparably small single crystals, which limit the range of accessible experimental data.

Published
2025

4. Removal of dissolved organic carbon in the West Pacific hadal zones.

Author

Chu, Mengfan, Bao, Rui, Strasser, Michael, Ikehara, Ken, Ding, Yang, Liu, Kejian, Liu, Mingzhi, Xu, Li, Wang, Yonghong, Bellanova, Piero, Rasbury, Troy, Kölling, Martin, Riedinger, Natascha, Luo, Min, März, Christian, Jitsuno, Kana, Cai, Zhirong, McHugh, Cecilia, and Druffel, Ellen

Abstract

The deep oceans are environments of complex carbon dynamics that have the potential to significantly impact the global carbon cycle. However, the role of hadal zones, particularly hadal trenches (water depth > 6 km), in the oceanic dissolved organic carbon (DOC) cycle is not thoroughly investigated. Here we report distinct DOC signatures in the Japan Trench bottom water. We find that up to 34% ± 7% of the DOC in the trench bottom is removed during the northeastward transport of dissolved carbon along the trench axis. This DOC removal increases the overall DOC recalcitrance of the deep Pacific DOC pool, and is potentially enhanced by the earthquake-triggered physical and biogeochemical processes in the hadal trenches. Radiocarbon analysis on representative oceanic transects further reveals that the Pacific deep-water DOC undergoes distinct removal compared to those in the Atlantic and Indian Oceans along the thermohaline transport. Our findings highlight hadal trenches as previously unrecognized DOC sinks in the deep ocean system, with varying dynamics that warrant further investigation.

Published
2025

5. Quantum Gravity Signature in a Thermodynamic Observable

Author

Strasser, Thomas, Christodoulou, Marios, Howl, Richard, and Brukner, Caslav

Subjects
Quantum Physics, General Relativity and Quantum Cosmology
Abstract

Proposed experiments for obtaining empirical evidence for a quantum description of gravity in a table-top setting focus on detecting quantum information signatures, such as entanglement or non-Gaussianity production, in gravitationally interacting quantum systems. Here, we explore an alternative approach where the quantization of gravity could be inferred through measurements of macroscopic, thermodynamical quantities, without the need for addressability of individual quantum systems. To demonstrate the idea, we take as a case study a gravitationally self-interacting Bose gas, and consider its heat capacity. We find a clear-cut distinction between the predictions of a classical gravitational interaction and a quantum gravitational interaction in the heat capacity of the Bose gas., Comment: 4 pages, 4 pages appendix

Published
2024

6. Perceived brightness and resolution of holographic augmented reality retinal scan glasses

Author

Rutz, Maximilian, Neuberger, Pia, Pick, Simon, and Straßer, Torsten

Subjects
Physics - Optics, Physics - Biological Physics
Abstract

Augmented reality display performance depends strongly on features of the human visual system. This is especially true for retinal scan glasses, which use laser beam scanning and transparent holographic optical combiners. Human-centered approaches allow us to go beyond conventional optical metrology and evaluate display performance as it is perceived in actual augmented reality use cases. Here, we first present a theoretical formula for the retinal scan luminance and ambient contrast ratio calculated from optical powers, wavelengths, field of view, and human pupil diameter. As a promising insight we found that the pupil diameter dependence is beneficial in assimilating the virtual image luminance to the ambient luminance. Second, we designed and performed a psychophysical experiment to assess perceived resolution in augmented reality settings using a fully functional retinal scan glasses prototype. We present the results of the trials and illustrate how this approach can be useful in the further development of augmented reality smart glasses., Comment: 21 pages, 9 figures, 2 tables

Published
2024

7. Chemical bonding in three-membered ring systems

Author

Strasser, Nina and Sax, Alexander F.

Subjects
Physics - Chemical Physics
Abstract

The formation of the four three-ring systems \ce{c-(CH2)_{3-k}(SiH2)_{k}}, ($k=0$: cyclopropane, $k=1$: silirane, $k=2$: disilirane, $k=3$: cyclotrisilane) by addition of methylene and silylene to the double bond in ethene, disilene, and silaethene, as well as the elimination of the carbene analogs from the three-rings, was studied with CAS(4,4) wave functions in both $C_{2v}$ and $C_s$ symmetry. To reveal charge and spin redistribution during these reactions the CAS(4,4) wave functions were analyzed using the orthogonal valence bond method (OVB). The potential energy curves, different internal coordinates, and the results of the OVB analysis show, that frequently the addition and elimination reactions follow different minimum energy paths, because they are indeed diabatic reactions. In these cases, there are no energy barriers corresponding to saddle points on the potential energy surfaces but the energy increases during one diabatic reaction until, at a certain point, the system jumps to the other diabatic state and, in the following, the energy decreases. This happens for reactions in $C_{2v}$ symmetry; as soon as the system can change to the lower symmetry, the diabatic states combine to an adiabatic one and the reaction follows a single minimum energy path.

Published
2024

8. Towards Interoperability Testing of Smart Energy Systems -- An Overview and Discussion of Possibilities

Author

Strasser, Thomas I., Widl, Edmund, Kuchenbuch, René A., Lázaro-Elorriaga, Laura, Laraudogoitia, Borja Tellado, Ginocchi, Mirko, Penthong, Thanakorn, Ponci, Ferdinanda, Gyrard, Amelie, Kung, Antonio, Mac Gregor, Carlos A., Montero, Carmen Garcia, and Algaba, Eduardo Relano

Subjects
Computer Science - Software Engineering
Abstract

Interoperability is the key to implementing a wide range of energy systems applications. It involves the seamless cooperation of different methods and components. With smart energy systems, interoperability faces challenges due to integrating differ-ent approaches and technologies. This includes dealing with heterogeneous approaches with various communication proto-cols and data formats. However, it is essential for smart energy systems to carry out thorough interoperability tests. They are usually diverse, and challenging, thus requiring careful consideration of compatibility issues and complex integration scenari-os. Overcoming these challenges requires a systematic approach that includes thorough test planning, rigorous testing, and continuous test monitoring. Although numerous testing approaches exist, most are more developed at the component/device level than at the system level. Consequently, there are few approaches and related facilities to test the interoperability of smart energy approaches and solutions at the system level. This work analyses existing interoperability test concepts, identi-fies enablers and the potential for harmonisation of procedures, and proposes further developments of these approaches., Comment: 14th Mediterranean Conference on Power Generation Transmission, Distribution and Energy Conversion (MED POWER 2024)

Published
2024
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9. Acceleration of positive muons by a radio-frequency cavity

Author

Aritome, S., Futatsukawa, K., Hara, H., Hayasaka, K., Ibaraki, Y., Ichikawa, T., Iijima, T., Iinuma, H., Ikedo, Y., Imai, Y., Inami, K., Ishida, K., Kamal, S., Kamioka, S., Kawamura, N., Kimura, M., Koda, A., Koji, S., Kojima, K., Kondo, A., Kondo, Y., Kuzuba, M., Matsushita, R., Mibe, T., Miyamoto, Y., Nakamura, J. G., Nakazawa, Y., Ogawa, S., Okazaki, Y., Otani, M., Oyama, S., Saito, N., Sato, H., Sato, T., Sato, Y., Shimomura, K., Shioya, Z., Strasser, P., Sugiyama, S., Sumi, K., Suzuki, K., Takeuchi, Y., Tanida, M., Tojo, J., Ueda, K., Uetake, S., Xie, X. H., Yamada, M., Yamamoto, S., Yamazaki, T., Yamura, K., Yoshida, M., Yoshioka, T., and Yotsuzuka, M.

Subjects
Physics - Accelerator Physics, High Energy Physics - Experiment
Abstract

Acceleration of positive muons from thermal energy to $100~$keV has been demonstrated. Thermal muons were generated by resonant multi-photon ionization of muonium atoms emitted from a sheet of laser-ablated aerogel. The thermal muons were first electrostatically accelerated to $5.7~$keV, followed by further acceleration to 100 keV using a radio-frequency quadrupole. The transverse normalized emittance of the accelerated muons in the horizontal and vertical planes were $0.85 \pm 0.25 ~\rm{(stat.)}~^{+0.22}_{-0.13} ~\rm{(syst.)}~\pi~$mm$\cdot$mrad and $0.32\pm 0.03~\rm{(stat.)} ^{+0.05}_{-0.02} ~\rm{(syst.)}~\pi~$mm$\cdot$mrad, respectively. The measured emittance values demonstrated phase space reduction by a factor of $2.0\times 10^2$ (horizontal) and $4.1\times 10^2$ (vertical) allowing good acceleration efficiency. These results pave the way to realize the first-ever muon accelerator for a variety of applications in particle physics, material science, and other fields.

Published
2024

10. Deep-ER: Deep Learning ECCENTRIC Reconstruction for fast high-resolution neurometabolic imaging

Author

Weiser, Paul, Langs, Georg, Bogner, Wolfgang, Motyka, Stanislav, Strasser, Bernhard, Golland, Polina, Singh, Nalini, Dietrich, Jorg, Uhlmann, Erik, Batchelor, Tracy, Cahill, Daniel, Hoffmann, Malte, Klauser, Antoine, and Andronesi, Ovidiu C.

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Machine Learning
Abstract

Introduction: Altered neurometabolism is an important pathological mechanism in many neurological diseases and brain cancer, which can be mapped non-invasively by Magnetic Resonance Spectroscopic Imaging (MRSI). Advanced MRSI using non-cartesian compressed-sense acquisition enables fast high-resolution metabolic imaging but has lengthy reconstruction times that limits throughput and needs expert user interaction. Here, we present a robust and efficient Deep Learning reconstruction to obtain high-quality metabolic maps. Methods: Fast high-resolution whole-brain metabolic imaging was performed at 3.4 mm$^3$ isotropic resolution with acquisition times between 4:11-9:21 min:s using ECCENTRIC pulse sequence on a 7T MRI scanner. Data were acquired in a high-resolution phantom and 27 human participants, including 22 healthy volunteers and 5 glioma patients. A deep neural network using recurring interlaced convolutional layers with joint dual-space feature representation was developed for deep learning ECCENTRIC reconstruction (Deep-ER). 21 subjects were used for training and 6 subjects for testing. Deep-ER performance was compared to conventional iterative Total Generalized Variation reconstruction using image and spectral quality metrics. Results: Deep-ER demonstrated 600-fold faster reconstruction than conventional methods, providing improved spatial-spectral quality and metabolite quantification with 12%-45% (P<0.05) higher signal-to-noise and 8%-50% (P<0.05) smaller Cramer-Rao lower bounds. Metabolic images clearly visualize glioma tumor heterogeneity and boundary. Conclusion: Deep-ER provides efficient and robust reconstruction for sparse-sampled MRSI. The accelerated acquisition-reconstruction MRSI is compatible with high-throughput imaging workflow. It is expected that such improved performance will facilitate basic and clinical MRSI applications.

Published
2024

11. Two-Fold Anisotropic Superconductivity in Bilayer T$_d$-MoTe$_2$

Author

Li, Zizhong, Jindal, Apoorv, Strasser, Alex, He, Yangchen, Zheng, Wenkai, Graf, David, Taniguchi, Takashi, Watanabe, Kenji, Balicas, Luis, Dean, Cory R., Qian, Xiaofeng, Pasupathy, Abhay N., and Rhodes, Daniel A.

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science
Abstract

Noncentrosymmetric 2D superconductors with large spin-orbit coupling offer an opportunity to explore superconducting behaviors far beyond the Pauli limit. One such superconductor, few-layer T$_d$-MoTe$_2$, has large upper critical fields that can exceed the Pauli limit by up to 600%. However, the mechanisms governing this enhancement are still under debate, with theory pointing towards either spin-orbit parity coupling or tilted Ising spin-orbit coupling. Moreover, ferroelectricity concomitant with superconductivity has been recently observed in the bilayer, where strong changes to superconductivity can be observed throughout the ferroelectric transition pathway. Here, we report the superconducting behavior of bilayer T$_d$-MoTe$ _2$ under an in-plane magnetic field, while systematically varying magnetic field angle and out-of-plane electric field strength. We find that superconductivity in bilayer MoTe$_2$ exhibits a two-fold symmetry with an upper critical field maxima occurring along the b-axis and minima along the a-axis. The two-fold rotational symmetry remains robust throughout the entire superconducting region and ferroelectric hysteresis loop. Our experimental observations of the spin-orbit coupling strength (up to 16.4 meV) agree with the spin texture and spin splitting from first-principles calculations, indicating that tilted Ising spin-orbit coupling is the dominant underlying mechanism.

Published
2024
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12. Combining Brillouin spectroscopy and machine learned interatomic potentials to probe mechanical properties of metal organic frameworks

Author

Lindner, Florian P., Strasser, Nina, Schultze, Martin, Wieser, Sandro, Slugovc, Christian, Elsayad, Kareem, Koski, Kristie J., Zojer, Egbert, and Czibula, Caterina

Subjects
Condensed Matter - Materials Science
Abstract

The mechanical properties of metal-organic frameworks (MOFs) are of high fundamental and also practical relevance. A particularly intriguing technique for determining anisotropic elastic tensors is Brillouin scattering, which so far has rarely been used for highly complex materials like MOFs. In the present contribution, we apply this technique to study a newly synthesized MOF-type material, referred to as GUT2. We show that when combining the experiments with state-of-the-art simulations of elastic properties and phonon bands (based on machine-learned force fields and dispersion-corrected density-functional theory). This provides a comprehensive understanding of the experimental signals, which are correlated with the longitudinal and transverse sound velocities. Moreover, even when dealing with comparably small single crystals, which limit the range of accessible experimental data, combining the insights from simulations and experiments allows the determination of approximate values for the components of the elastic tensor of the studied material.

Published
2024

13. Few-electron highly charged muonic Ar atoms verified by electronic $K$ x rays

Author

Okumura, T., Azuma, T., Bennett, D. A., Doriese, W. B., Durkin, M. S., Fowler, J. W., Gard, J. D., Hashimoto, T., Hayakawa, R., Ichinohe, Y., Indelicato, P., Isobe, T., Kanda, S., Kato, D., Katsuragawa, M., Kawamura, N., Kino, Y., Kominato, N., Miyake, Y., Morgan, K. M., Noda, H., O'Neil, G. C., Okada, S., Okutsu, K., Paul, N., Reintsema, C. D., Sato, T., Schmidt, D. R., Shimomura, K., Strasser, P., Swetz, D. S., Takahashi, T., Takeda, S., Takeshita, S., Tampo, M., Tatsuno, H., Tőkési, K., Tong, X. M., Toyama, Y., Ullom, J. N., Watanabe, S., Yamada, S., and Yamashita, T.

Subjects
Physics - Atomic Physics
Abstract

Electronic $K$ x rays emitted by muonic Ar atoms in the gas phase were observed using a superconducting transition-edge-sensor microcalorimeter. The high-precision energy spectra provided a clear signature of the presence of muonic atoms accompanied by a few electrons, which have never been observed before. One-, two-, and three-electron bound, i.e., H-like, He-like, and Li-like, muonic Ar atoms were identified from electronic $K$ x rays and hyper-satellite $K$ x rays. These $K$ x rays are emitted after the charge transfer process by the collisions with surrounding Ar atoms. With the aid of theoretical calculations, we confirmed that the peak positions are consistent with the x-ray energies from highly charged Cl ions, and the intensities reflecting deexcitation dynamics were successfully understood by taking into account the interaction between the muon and bound electrons.

Published
2024

14. Symptom monitoring with electronic patient-reported outcomes during cancer treatment: final results of the PRO-TECT cluster-randomized trial

Author

Basch, Ethan, Schrag, Deborah, Jansen, Jennifer, Henson, Sydney, Ginos, Brenda, Stover, Angela M., Carr, Philip, Spears, Patricia A., Jonsson, Mattias, Deal, Allison M., Bennett, Antonia V., Thanarajasingam, Gita, Rogak, Lauren, Reeve, Bryce B., Snyder, Claire, Bruner, Deborah, Cella, David, Kottschade, Lisa A., Perlmutter, Jane, Geoghegan, Cindy, Given, Barbara, Mazza, Gina L., Miller, Robert, Strasser, Jon F., Zylla, Dylan M., Weiss, Anna, Blinder, Victoria S., Wolf, Anna P., and Dueck, Amylou C.

Published
2025
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15. Achievements, Experiences, and Lessons Learned from the European Research Infrastructure ERIGrid related to the Validation of Power and Energy Systems

Author

Strasser, T. I., de Jong, E. C. W., Sosnina, M., Rodriguez-Seco, J. E., Kotsampopoulos, P., Babazadeh, D., Mäki, K., Bhandia, R., Brandl, R., Sandroni, C., Heussen, K., and Coffele, F.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Power system operation is of vital importance and must be developed far beyond today's practice to meet future needs. Almost all European countries are facing an abrupt and very important increase of renewables with intrinsically varying yields which are difficult to predict. In addition, an increase of new types of electric loads and a reduction of traditional production from bulk generation can be observed as well. Hence, the level of complexity of system operation steadily increases. Because of these developments, the traditional power system is being transformed into a smart grid. Previous and ongoing research has tended to focus on how specific aspects of smart grids can be developed and validated, but until now there exists no integrated approach for analysing and evaluating complex smart grid configurations. To tackle these research and development needs, a pan-European research infrastructure is realized in the ERIGrid project that supports the technology development as well as the roll out of smart grid technologies and solutions. This paper provides an overview of the main results of ERIGrid which have been achieved during the last four years. Also, experiences and lessons learned are discussed and an outlook to future research needs is provided.

Published
2024
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16. Reduced nicotine in cigarettes in a marketplace with alternative nicotine systems: randomized clinical trial.

Author

Hatsukami, Dorothy, Jensen, Joni, Carroll, Dana, Luo, Xianghua, Strayer, Lori, Cao, Qing, Hecht, Stephen, Murphy, Sharon, Carmella, Steven, Denlinger-Apte, Rachel, Colby, Suzanne, Strasser, Andrew, McClernon, F, Tidey, Jennifer, Benowitz, Neal, and Donny, Eric

Subjects
Cigarettes, Electronic cigarettes, Nicotine, Nicotine delivery systems, Reduced nicotine cigarettes, Smoking cessation, Tobacco, Tobacco control, Tobacco policy, Tobacco product regulations
Abstract

BACKGROUND: Reducing cigarette addictiveness has the potential to avert millions of yearly tobacco-related deaths worldwide. Substantially reducing nicotine in cigarettes decreases cigarette consumption, but no large clinical trial has determined the effects of reduced-nicotine cigarettes when other nicotine-containing products are available. The aim of this study was to examine the effects of reduced-nicotine cigarettes in the context of the availability of alternative nicotine delivery systems. METHODS: In a U.S. six-site, open-label, parallel-arm study, smokers were randomized for twelve weeks to an experimental marketplace containing cigarettes with either 0.4 mg or 15.8 mg nicotine per gram of tobacco; all had access to non-combusted alternative nicotine delivery systems (e.g., e-cigarettes; medicinal nicotine). Group differences in the primary outcomes (cigarettes per day, number of smoke-free days) were examined using linear and negative binomial regression, respectively (Trial Registration: NCT03272685). FINDINGS: Among 438 randomized participants (mean [standard deviation (SD), range] age, 44.5 [11.9, 20-73] years, 225 [51.4%] women, 282 [64.4%] White and 339 [77.4%] trial completers), those in the 0.4 mg vs. 15.8 mg nicotine cigarette condition experienced significantly lower cigarettes per day at the end of intervention (mean [SD], 7.05 [7.88] vs. 12.95 [9.07], adjusted mean difference, -6.21 [95% CI, -7.66 to -4.75], P

Published
2024

20. A multi-modal single-cell and spatial expression map of metastatic breast cancer biopsies across clinicopathological features

Author

Klughammer, Johanna, Abravanel, Daniel L., Segerstolpe, Åsa, Blosser, Timothy R., Goltsev, Yury, Cui, Yi, Goodwin, Daniel R., Sinha, Anubhav, Ashenberg, Orr, Slyper, Michal, Vigneau, Sébastien, Jané‐Valbuena, Judit, Alon, Shahar, Caraccio, Chiara, Chen, Judy, Cohen, Ofir, Cullen, Nicole, DelloStritto, Laura K., Dionne, Danielle, Files, Janet, Frangieh, Allison, Helvie, Karla, Hughes, Melissa E., Inga, Stephanie, Kanodia, Abhay, Lako, Ana, MacKichan, Colin, Mages, Simon, Moriel, Noa, Murray, Evan, Napolitano, Sara, Nguyen, Kyleen, Nitzan, Mor, Ortiz, Rebecca, Patel, Miraj, Pfaff, Kathleen L., Porter, Caroline B. M., Rotem, Asaf, Strauss, Sarah, Strasser, Robert, Thorner, Aaron R., Turner, Madison, Wakiro, Isaac, Waldman, Julia, Wu, Jingyi, Gómez Tejeda Zañudo, Jorge, Zhang, Diane, Lin, Nancy U., Tolaney, Sara M., Winer, Eric P., Boyden, Edward S., Chen, Fei, Nolan, Garry P., Rodig, Scott J., Zhuang, Xiaowei, Rozenblatt-Rosen, Orit, Johnson, Bruce E., Regev, Aviv, and Wagle, Nikhil

Published
2024
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22. Observation of the dual quantum spin Hall insulator by density-tuned correlations in a van der Waals monolayer

Author

Tang, Jian, Ding, Thomas Siyuan, Chen, Hongyu, Gao, Anyuan, Qian, Tiema, Huang, Zumeng, Sun, Zhe, Han, Xin, Strasser, Alex, Li, Jiangxu, Geiwitz, Michael, Shehabeldin, Mohamed, Belosevich, Vsevolod, Wang, Zihan, Wang, Yiping, Watanabe, Kenji, Taniguchi, Takashi, Bell, David C., Wang, Ziqiang, Fu, Liang, Zhang, Yang, Qian, Xiaofeng, Burch, Kenneth S., Shi, Youguo, Ni, Ni, Chang, Guoqing, Xu, Su-Yang, and Ma, Qiong

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Condensed Matter - Materials Science, Condensed Matter - Strongly Correlated Electrons
Abstract

The convergence of topology and correlations represents a highly coveted realm in the pursuit of novel quantum states of matter. Introducing electron correlations to a quantum spin Hall (QSH) insulator can lead to the emergence of a fractional topological insulator and other exotic time-reversal-symmetric topological order, not possible in quantum Hall and Chern insulator systems. However, the QSH insulator with quantized edge conductance remains rare, let alone that with significant correlations. In this work, we report a novel dual QSH insulator within the intrinsic monolayer crystal of TaIrTe4, arising from the interplay of its single-particle topology and density-tuned electron correlations. At charge neutrality, monolayer TaIrTe4 demonstrates the QSH insulator that aligns with single-particle band structure calculations, manifesting enhanced nonlocal transport and quantized helical edge conductance. Interestingly, upon introducing electrons from charge neutrality, TaIrTe4 only shows metallic behavior in a small range of charge densities but quickly goes into a new insulating state, entirely unexpected based on TaIrTe4's single-particle band structure. This insulating state could arise from a strong electronic instability near the van Hove singularities (VHS), likely leading to a charge density wave (CDW). Remarkably, within this correlated insulating gap, we observe a resurgence of the QSH state, marked by the revival of nonlocal transport and quantized helical edge conduction. Our observation of helical edge conduction in a CDW gap could bridge spin physics and charge orders. The discovery of a dual QSH insulator introduces a new method for creating topological flat minibands via CDW superlattices, which offer a promising platform for exploring time-reversal-symmetric fractional phases and electromagnetism., Comment: 23 pages, 15 figures, submitted version

Published
2024
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23. Diffusion-based Generative Prior for Low-Complexity MIMO Channel Estimation

Author

Fesl, Benedikt, Baur, Michael, Strasser, Florian, Joham, Michael, and Utschick, Wolfgang

Subjects
Electrical Engineering and Systems Science - Signal Processing, Computer Science - Machine Learning
Abstract

This work proposes a novel channel estimator based on diffusion models (DMs), one of the currently top-rated generative models. Contrary to related works utilizing generative priors, a lightweight convolutional neural network (CNN) with positional embedding of the signal-to-noise ratio (SNR) information is designed by learning the channel distribution in the sparse angular domain. Combined with an estimation strategy that avoids stochastic resampling and truncates reverse diffusion steps that account for lower SNR than the given pilot observation, the resulting DM estimator has both low complexity and memory overhead. Numerical results exhibit better performance than state-of-the-art channel estimators utilizing generative priors.

Published
2024

24. On the Asymptotic Mean Square Error Optimality of Diffusion Models

Author

Fesl, Benedikt, Böck, Benedikt, Strasser, Florian, Baur, Michael, Joham, Michael, and Utschick, Wolfgang

Subjects
Computer Science - Machine Learning, Statistics - Machine Learning
Abstract

Diffusion models (DMs) as generative priors have recently shown great potential for denoising tasks but lack theoretical understanding with respect to their mean square error (MSE) optimality. This paper proposes a novel denoising strategy inspired by the structure of the MSE-optimal conditional mean estimator (CME). The resulting DM-based denoiser can be conveniently employed using a pre-trained DM, being particularly fast by truncating reverse diffusion steps and not requiring stochastic re-sampling. We present a comprehensive (non-)asymptotic optimality analysis of the proposed diffusion-based denoiser, demonstrating polynomial-time convergence to the CME under mild conditions. Our analysis also derives a novel Lipschitz constant that depends solely on the DM's hyperparameters. Further, we offer a new perspective on DMs, showing that they inherently combine an asymptotically optimal denoiser with a powerful generator, modifiable by switching re-sampling in the reverse process on or off. The theoretical findings are thoroughly validated with experiments based on various benchmark datasets

Published
2024

25. Experimental investigation on the effect of temperature on the frequency limit of GaAs-AlGaAs and AlGaN-GaN 2DEG Hall-effect sensors

Author

Lalwani, Anand V, John, Abel, Shetty, Satish, Giparakis, Miriam, Arora, Kanika, Maharaj, Avidesh, Strasser, Gottfried, Andrews, Aaron Maxwell, Koeck, Helmut, Mantooth, Alan, Salamo, Gregory, and Senesky, Debbie G

Subjects
Physics - Instrumentation and Detectors, Electrical Engineering and Systems Science - Signal Processing
Abstract

This follow-on work investigates the effect of temperature on the frequency limit of 2-dimensional electron gas (2DEG) Hall-effect sensors., Comment: 4 pages

Published
2024

27. Photovoltaic grid-forming control strategy investigation using hardware-in-the-loop experiments

Author

Bhattacharya, Somesh, Charalambous, Chrysanthos, Banjac, Anja, Miletic, Zoran, Strasser, Thomas, Azzopardi, Brian, Papadimitriou, Christina, Efthymiou, Venizelos, and Polycarpou, Alexis

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The frequency stability of a power system is of paramount importance, as a fast frequency swings in the system can lead to oscillatory instability, and thereby blackouts. A grid-connected microgrid, that can operate in the islanded mode can also possess such deteriorating effect due to the higher share of converter-based sources. In this paper, a coordinated frequency control within a distribution network is discussed, with a higher share of Photovoltaics (PV). The main objective of this paper is to test the grid-forming capabilities of PVs, without the requirement of an energy storage in the network. The tests were carried out with the help of the Typhoon Hardware-in-the-loop (HIL) platform using a real Cypriot network feeder. The real-time results confirm the efficacy of the PV as a grid-forming inverter, provided it has sufficient input (irradiance) to provide for the loads within the system of interest. The grid-forming PV also possesses the capability of reconnection with the utility grid through a synchronizer switch that requires minimal communication, makes the overall control independent of any other power source, subject to certain irradiance and loading conditions., Comment: 13th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion (MEDPOWER 2022)

Published
2023
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28. Energy Systems Test Case Discovery Enabled by Test Case Profile and Repository

Author

Raussi, Petra, Kamsamrong, Jirapa, Paspatis, Alexandros, Heussen, Kai, Zerihun, Tesfaye Amare, Widl, Edmund, Andrén, Filip Pröstl, Kazmi, Jawad H, Strasser, Thomas I., Castro, Felipe, and Pellegrino, Luigi

Subjects
Computer Science - Software Engineering, Electrical Engineering and Systems Science - Systems and Control
Abstract

Smart energy systems comprise multiple domains like power, thermal, control, information, and communication technology, which increases the complexity of research and development studies. This expansion also requires larger and ever so complex experimental pilot environments driving the demand for geographically distributed multi-research infrastructure tests. The Holistic Test Description approach supports the design of multi-domain and multi-research infrastructure tests by organizing the test cases into comprehensive segments, ensuring all relevant items for testing are covered. These test cases eventually form a pool, which to understand holistically would require studying and reading all the descriptions. This work proposes therefore the concept of Test Case Profiles to improve test case discovery and the structured creation of them. Test Case Profiles add further structure to the indexing in test case repositories. Along with the proposed indexing method, four different use cases are introduced to motivate additional applications of the proposed concept., Comment: 2023 Open Source Modelling and Simulation of Energy Systems (OSMSES)

Published
2023
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29. The DeMaDs Open Source Modeling Framework for Power System Malfunction Detection

Author

Fellner, David, Strasser, Thomas I, and Kastner, Wolfgang

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Modeling and simulation of electrical power systems are becoming increasingly important approaches for the development and operation of novel smart grid functionalities -- especially with regard to data-driven applications as data of certain operational states or misconfigurations can be next to impossible to obtain. The DeMaDs framework allows for the simulation and modeling of electric power grids and malfunctions therein. Furthermore, it serves as a testbed to assess the applicability of various data-driven malfunction detection methods. These include data mining techniques, traditional machine learning approaches as well as deep learning methods. The framework's capabilities and functionality are laid out here, as well as explained by the means of an illustrative example., Comment: 2023 Open Source Modelling and Simulation of Energy Systems (OSMSES)

Published
2023
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30. An Operational Data-Driven Malfunction Detection Framework for Enhanced Power Distribution System Monitoring -- The DeMaDs Approach

Author

Fellner, David, Strasser, Thomas I., Kastner, Wolfgang, Behnam, Feizifar, and Abdulhadi, Ibrahim F.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The changes in the electric energy system toward a sustainable future are inevitable and already on the way today. This often entails a change of paradigm for the electric energy grid, for example, the switch from central to decentralized power generation which also has to provide grid-supporting functionalities. However, due to the scarcity of distributed sensors, new solutions for grid operators for monitoring these functionalities are needed. The framework presented in this work allows to apply and assess data-driven detection methods in order to implement such monitoring capabilities. Furthermore, an approach to a multi-stage detection of misconfigurations is introduced. Details on implementations of the single stages as well as their requirements are also presented. Furthermore, testing and validation results are discussed. Due to its feature of being seamlessly integrable into system operators' current metering infrastructure, clear benefits of the proposed solution are pointed out., Comment: 27th International Conference on Electricity Distribution (CIRED 2023)

Published
2023
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32. Atypical RhoUV GTPases in development and disease

Author

Woo, Stephanie and Strasser, Leesa

Subjects
Biochemistry and Cell Biology, Biological Sciences, 2.1 Biological and endogenous factors, Generic health relevance, GTP-Binding Proteins, rho GTP-Binding Proteins, Signal Transduction, Cell Adhesion, EMT, Rho GTPases, RhoU, RhoV, cancer, embryogenesis, Medical Biochemistry and Metabolomics, Biochemistry & Molecular Biology, Biochemistry and cell biology
Abstract

RhoU and RhoV are members of the Rho family of small GTPases that comprise their own subfamily. RhoUV GTPases are classified as atypical due to the kinetics of their GTP/GDP binding cycles. They also possess unique N- and C-termini that regulate their subcellular localization and activity. RhoU and RhoV have been linked to cytoskeletal regulation, cell adhesion, and cell migration. They each exhibit distinct expression patterns during embryonic development and diseases such as cancer metastasis, suggesting they have specialized functions. In this review, we will discuss the known functions of RhoU and RhoV, with a focus on their roles in early development, organogenesis, and disease.

Published
2024

33. A genome-edited N. benthamiana line for industrial-scale production of recombinant glycoproteins with targeted N-glycosylation.

Author

Kogelmann, Benjamin, Melnik, Stanislav, Bogner, Michaela, Kallolimath, Somanath, Stöger, Eva, Sun, Lin, Strasser, Richard, DAoust, Marc-André, Lavoie, Pierre-Olivier, Saxena, Pooja, Gach, Johannes, and Steinkellner, Herta

Subjects
CRISPR/Cas9, N-glycan engineering, Nicotiana benthamiana, fucose, recombinant glycoproteins, Humans, Glycosylation, Recombinant Proteins, Glycoproteins, UDP Xylose-Protein Xylosyltransferase, Polysaccharides, Plants, Genetically Modified
Abstract

Control over glycosylation is an important quality parameter in recombinant protein production. Here, we demonstrate the generation of a marker-free genome edited Nicotiana benthamiana N-glycosylation mutant (NbXF-KO) carrying inactivated β1,2-xylosyltransferase and α1,3-fucosyltransferase genes. The knockout of seven genes and their stable inheritance was confirmed by DNA sequencing. Mass spectrometric analyses showed the synthesis of N-glycans devoid of plant-specific β1,2-xylose and core α 1,3-fucose on endogenous proteins and a series of recombinantly expressed glycoproteins with different complexities. Further transient glycan engineering towards more diverse human-type N-glycans resulted in the production of recombinant proteins decorated with β1,4-galactosylated and α2,6-sialylated structures, respectively. Notably, a monoclonal antibody expressed in the NbXF-KO displayed glycosylation-dependent activities. Collectively, the engineered plants grow normally and are well suited for upscaling, thereby meeting industrial and regulatory requirements for the production of high-quality therapeutic proteins.

Published
2024

34. Local ionic transport enables selective PGM-free bipolar membrane electrode assembly

Author

Li, Mengran, Lees, Eric W, Ju, Wen, Subramanian, Siddhartha, Yang, Kailun, Bui, Justin C, Iglesias van Montfort, Hugo-Pieter, Abdinejad, Maryam, Middelkoop, Joost, Strasser, Peter, Weber, Adam Z, Bell, Alexis T, and Burdyny, Thomas

Subjects
Chemical Sciences, Physical Chemistry, Affordable and Clean Energy
Abstract

Bipolar membranes in electrochemical CO2 conversion cells enable different reaction environments in the CO2-reduction and O2-evolution compartments. Under ideal conditions, water-splitting in the bipolar membrane allows for platinum-group-metal-free anode materials and high CO2 utilizations. In practice, however, even minor unwanted ion crossover limits stability to short time periods. Here we report the vital role of managing ionic species to improve CO2 conversion efficiency while preventing acidification of the anodic compartment. Through transport modelling, we identify that an anion-exchange ionomer in the catalyst layer improves local bicarbonate availability and increasing the proton transference number in the bipolar membranes increases CO2 regeneration and limits K+ concentration in the cathode region. Through experiments, we show that a uniform local distribution of bicarbonate ions increases the accessibility of reverted CO2 to the catalyst surface, improving Faradaic efficiency and limiting current densities by twofold. Using these insights, we demonstrate a fully platinum-group-metal-free bipolar membrane electrode assembly CO2 conversion system exhibiting

Published
2024

35. Effects of N-glycans on the structure of human IgA2

Author

Ruocco, Valentina, Grünwald-Gruber, Clemens, Rad, Behzad, Tscheliessnig, Rupert, Hammel, Michal, and Strasser, Richard

Subjects
Biochemistry and Cell Biology, Biological Sciences, Cancer, Biotechnology, 2.1 Biological and endogenous factors, IgA antibodies, N-linked glycan, SAXS, flexibility, protein assembly, protein stability, Biochemistry and cell biology, Medical biochemistry and metabolomics
Abstract

The transition of IgA antibodies into clinical development is crucial because they have the potential to create a new class of therapeutics with superior pathogen neutralization, cancer cell killing, and immunomodulation capacity compared to IgG. However, the biological role of IgA glycans in these processes needs to be better understood. This study provides a detailed biochemical, biophysical, and structural characterization of recombinant monomeric human IgA2, which varies in the amount/locations of attached glycans. Monomeric IgA2 antibodies were produced by removing the N-linked glycans in the CH1 and CH2 domains. The impact of glycans on oligomer formation, thermal stability, and receptor binding was evaluated. In addition, we performed a structural analysis of recombinant IgA2 in solution using Small Angle X-Ray Scattering (SAXS) to examine the effect of glycans on protein structure and flexibility. Our results indicate that the absence of glycans in the Fc tail region leads to higher-order aggregates. SAXS, combined with atomistic modeling, showed that the lack of glycans in the CH2 domain results in increased flexibility between the Fab and Fc domains and a different distribution of open and closed conformations in solution. When binding with the Fcα-receptor, the dissociation constant remains unaltered in the absence of glycans in the CH1 or CH2 domain, compared to the fully glycosylated protein. These results provide insights into N-glycans' function on IgA2, which could have important implications for developing more effective IgA-based therapeutics in the future.

Published
2024

37. Towards Scalable FMI-based Co-simulation of Wind Energy Systems Using PowerFactory

Author

van der Meer, Arjen A, Bhandia, Rishabh, Widl, Edmund, Heussen, Kai, Steinbrink, Cornelius, Chodura, Przemyslaw, Strasser, Thomas I., and Palensky, Peter

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Due to the increased deployment of renewable energy sources and intelligent components the electric power system will exhibit a large degree of heterogeneity, which requires inclusive and multi-disciplinary system assessment. The concept of co-simulation is a very attractive option to achieve this; each domain-specific subsystem can be addressed via its own specialized simulation tool. The applicability, however, depends on aspects like standardised interfaces, automated case creation, initialisation, and the scalability of the co-simulation itself. This work deals with the inclusion of the Functional Mock-up Interface for co-simulation into the DIgSILENT PowerFactory simulator, and tests its accuracy, implementation, and scalability for the grid connection study of a wind power plant. The coupling between the RMS mode of PowerFactory and MATLAB/Simulink in a standardised manner is shown. This approach allows a straightforward inclusion of black-boxed modelling, is easily scalable in size, quantity, and component type., Comment: 2019 IEEE PES Innovative Smart Grid Technologies Europe (ISGT-Europe)

Published
2023
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38. Noise-reduction techniques for 1H-FID-MRSI at 14.1T: Monte-Carlo validation & in vivo application

Author

Alves, Brayan, Simicic, Dunja, Mosso, Jessie, Lê, Thanh Phong, Briand, Guillaume, Bogner, Wolfgang, Lanz, Bernard, Strasser, Bernhard, Klauser, Antoine, and Cudalbu, Cristina

Subjects
Physics - Medical Physics
Abstract

Proton magnetic resonance spectroscopic imaging (1H-MRSI) is a powerful tool that enables the multidimensional non-invasive mapping of the neurochemical profile at high-resolution over the entire brain. The constant demand for higher spatial resolution in 1H-MRSI led to increased interest in post-processing-based denoising methods aimed at reducing noise variance. The aim of the present study was to implement two noise-reduction techniques, the Marchenko-Pastur principal component analysis (MP-PCA) based denoising and the low-rank total generalized variation (LR-TGV) reconstruction, and to test their potential and impact on preclinical 14.1T fast in vivo 1H-FID-MRSI datasets. Since there is no known ground truth for in vivo metabolite maps, additional evaluations of the performance of both noise-reduction strategies were conducted using Monte-Carlo simulations. Results showed that both denoising techniques increased the apparent signal-to-noise ratio SNR while preserving noise properties in each spectrum for both in vivo and Monte-Carlo datasets. Relative metabolite concentrations were not significantly altered by either methods and brain regional differences were preserved in both synthetic and in vivo datasets. Increased precision of metabolite estimates was observed for the two methods, with inconsistencies noted on lower concentrated metabolites. Our study provided a framework on how to evaluate the performance of MP-PCA and LR-TGV methods for preclinical 1H-FID MRSI data at 14.1T. While gains in apparent SNR and precision were observed, concentration estimations ought to be treated with care especially for low-concentrated metabolites., Comment: Brayan Alves and Dunja Simicic are joint first authors. Currently in revision for NMR in Biomedicine

Published
2023

39. Towards an Interoperability Roadmap for the Energy Transition

Author

Reif, Valerie, Strasser, Thomas I., Jimeno, Joseba, Farre, Marjolaine, Genest, Oliver, Gyrard, Amélie, McGranaghan, Mark, Lipari, Gianluca, Schütz, Johann, Uslar, Mathias, Vogel, Sebastian, Bytyqi, Arsim, Dornmair, Rita, Corusa, Andreas, Roy, Gaurav, Ponci, Ferdinanda, Dognini, Alberto, and Monti, Antonello

Subjects
Computer Science - Other Computer Science
Abstract

Smart grid interoperability is the means to achieve the twin green and digital transition but re-mains heterogeneous and fragmented to date. This work presents the first ideas and corner-stones of an Interoperability Roadmap for the Energy Transition that is being developed by the Horizon Europe int:net project. This roadmap builds on four cornerstones that address open interoperability issues. These are a knowledge base to address the lack of convergence among existing initiatives, a maturity model and a network of testing and certification facilities to ad-dress the lack of practical tools for the industry, and a governance process to address the gap between standards-related approaches of Standards Development Organisations and Research and Innovation projects. A community of practice will be set up to ensure the continuity of the ongoing activities related to smart grid interoperability. To outlive the duration of the int:net project, the aim is to formalise the community of practice as a legal entity., Comment: 12. (Hybrid) Symposium Communications for Energy Systems (ComForEn 2023)

Published
2023
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40. Frequency-adaptive control of a three-phase single-stage grid-connected photovoltaic system under grid voltage sags

Author

Rey-Boué, Alexis B., Guerrero-Rodríguez, N. F., Stöckl, Johannes, and Strasser, Thomas I.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The low-voltage ride-through service is carried out in this paper according to the voltage profile described by the IEC 61400-21 European normative when short-duration voltage sags happen, and some instantaneous reactive power is delivered to the grid in accordance with the Spanish grid code; the mandatory limitation of the amplitude of the three-phase inverter currents to its nominal value is carried out with a novel control strategy, in which a certain amount of instantaneous constant active power can also be delivered to the grid when small or moderate voltage sags happen. A Multiple second order generalized integrator frequency-locked loop synchronization algorithm is employed in order to estimate the system frequency without harmonic distortions, as well as to output the positive- and the negative- sequence of the {\alpha}\b{eta} quantities of the three-phase grid voltages when balanced and unbalanced voltage sags happen in a frequency-adaptive scheme. The current control is carried out in the stationary reference frame, which guarantees the cancellation of the harmonic distortions in the utility grid currents using a Harmonic compensation structure, and the implementation of a constant active power control in order to protect the DC link capacitor from thermal stresses avoiding the appearance of large harmonic distortions at twice the fundamental frequency in the DC link voltage. A case study of a three-phase single-stage grid-connected PV system with a maximum apparent power about 500 kVA is tested with several simulations using MATLAB/SIMULINK firstly, and secondly, with some experiments using the Controller hardware-in-the-loop (CHIL) simulation technique for several types of voltage sags in order to do the final validation of the control algorithms.

Published
2023
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41. Stability Studies for Photovoltaic Integration using Power Hardware-in-the-Loop Experiments

Author

Papadimitriou, Christina N., Charalambous, Chrysanthos, Armenakis, Andreas, Miletic, Zoran, Tremmel, Werner, Banjac, Anja, Strasser, Thomas I., Efthymiou, Venizelos, and Georghiou, George E.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The electrical power network is gradually migrating from a centralized generation approach to a decentralized generation with high shares of renewable energy sources (RES). However, power systems with low shares of synchronous generation and consequently low total system inertia, are vulnerable to power imbalances. Such systems can experience frequency stability problems, such as high frequency excursions and higher rates of change of frequency even under small disturbances. This phenomenon is intensified when the grid under investigation has low or no interconnections (islanded) and thus the challenge for stable operation becomes more significant for the operators. This work focuses on how the frequency stability is affected when a photovoltaic (PV) inverter is integrated into a real non-interconnected distribution grid in Cyprus. In order to capture the realistic interactions of this integration, stability experiments in a hardware-in-the-loop (HIL) environment are performed with the aim to provide insightful results for the grid operator., Comment: The 12th Mediterranean Conference on Power Generation, Transmission, Distribution and Energy Conversion (MEDPOWER 2020)

Published
2023
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42. Towards a Systematic Approach for Smart Grid Hazard Analysis and Experiment Specification

Author

Smith, Paul, Piatkowska, Eva, Widl, Edmund, Andrén, Filip Pröstl, and Strasser, Thomas I.

Subjects
Computer Science - Software Engineering
Abstract

The transition to the smart grid introduces complexity to the design and operation of electric power systems. This complexity has the potential to result in safety-related losses that are caused, for example, by unforeseen interactions between systems and cyber-attacks. Consequently, it is important to identify potential losses and their root causes, ideally during system design. This is non-trivial and requires a systematic approach. Furthermore, due to complexity, it may not possible to reason about the circumstances that could lead to a loss; in this case, experiments are required. In this work, we present how two complementary deductive approaches can be usefully integrated to address these concerns: Systems Theoretic Process Analysis (STPA) is a systems approach to identifying safety-related hazard scenarios; and the ERIGrid Holistic Test Description (HTD) provides a structured approach to refine and document experiments. The intention of combining these approaches is to enable a systematic approach to hazard analysis whose findings can be experimentally tested. We demonstrate the use of this approach with a reactive power voltage control case study for a low voltage distribution network., Comment: 2020 IEEE 18th International Conference on Industrial Informatics (INDIN)

Published
2023
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43. Asynchronous Integration of Real-Time Simulators for HIL-based Validation of Smart Grids

Author

Gavriluta, Catalin, Lauss, Georg, Strasser, Thomas I., Montoya, Juan, Brandl, Ron, and Kotsampopoulos, Panos

Subjects
Computer Science - Software Engineering
Abstract

As the landscape of devices that interact with the electrical grid expands, also the complexity of the scenarios that arise from these interactions increases. Validation methods and tools are typically domain specific and are designed to approach mainly component level testing. For this kind of applications, software and hardware-in-the-loop based simulations as well as lab experiments are all tools that allow testing with different degrees of accuracy at various stages in the development life-cycle. However, things are vastly different when analysing the tools and the methodology available for performing system-level validation. Until now there are no available well-defined approaches for testing complex use cases involving components from different domains. Smart grid applications would typically include a relatively large number of physical devices, software components, as well as communication technology, all working hand in hand. This paper explores the possibilities that are opened in terms of testing by the integration of a real-time simulator into co-simulation environments. Three practical implementations of such systems together with performance metrics are discussed. Two control-related examples are selected in order to show the capabilities of the proposed approach., Comment: IECON 2019 - 45th Annual Conference of the IEEE Industrial Electronics Society

Published
2023
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44. Ranking-based Argumentation Semantics Applied to Logical Argumentation (full version)

Author

Heyninck, Jesse, Raddaoui, Badran, and Straßer, Christian

Subjects
Computer Science - Artificial Intelligence
Abstract

In formal argumentation, a distinction can be made between extension-based semantics, where sets of arguments are either (jointly) accepted or not, and ranking-based semantics, where grades of acceptability are assigned to arguments. Another important distinction is that between abstract approaches, that abstract away from the content of arguments, and structured approaches, that specify a method of constructing argument graphs on the basis of a knowledge base. While ranking-based semantics have been extensively applied to abstract argumentation, few work has been done on ranking-based semantics for structured argumentation. In this paper, we make a systematic investigation into the behaviour of ranking-based semantics applied to existing formalisms for structured argumentation. We show that a wide class of ranking-based semantics gives rise to so-called culpability measures, and are relatively robust to specific choices in argument construction methods., Comment: Accepted for the 32nd International Joint Conference on Artificial Intelligence (IJCAI 2023). Full version including proofs

Published
2023

45. Topological properties of a non-Hermitian quasi-1D chain with a flat band

Author

Martínez-Strasser, C., Herrera, M. A. J., García-Etxarri, A., Palumbo, G., Kunst, F. K., and Bercioux, D.

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics, Physics - Optics, Quantum Physics
Abstract

The spectral properties of a non-Hermitian quasi-1D lattice in two of the possible dimerization configurations are investigated. Specifically, it focuses on a non-Hermitian diamond chain that presents a zero-energy flat band. The flat band originates from wave interference and results in eigenstates with a finite contribution only on two sites of the unit cell. To achieve the non-Hermitian characteristics, the system under study presents non-reciprocal hopping terms in the chain. This leads to the accumulation of eigenstates on the boundary of the system, known as the non-Hermitian skin effect. Despite this accumulation of eigenstates, for one of the two considered configurations, it is possible to characterize the presence of non-trivial edge states at zero energy by a real-space topological invariant known as the biorthogonal polarization. This work shows that this invariant, evaluated using the destructive interference method, characterizes the non-trivial phase of the non-Hermitian diamond chain. For the second non-Hermitian configuration, there is a finite quantum metric associated with the flat band. Additionally, the system presents the skin effect despite the system having a purely real or imaginary spectrum. The two non-Hermitian diamond chains can be mapped into two models of the Su-Schrieffer-Heeger chains, either non-Hermitian, and Hermitian, both in the presence of a flat band. This mapping allows to draw valuable insights into the behavior and properties of these systems., Comment: 14 pages, 9 figures

Published
2023
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46. Artificial Intelligence for Science in Quantum, Atomistic, and Continuum Systems

Author

Zhang, Xuan, Wang, Limei, Helwig, Jacob, Luo, Youzhi, Fu, Cong, Xie, Yaochen, Liu, Meng, Lin, Yuchao, Xu, Zhao, Yan, Keqiang, Adams, Keir, Weiler, Maurice, Li, Xiner, Fu, Tianfan, Wang, Yucheng, Strasser, Alex, Yu, Haiyang, Xie, YuQing, Fu, Xiang, Xu, Shenglong, Liu, Yi, Du, Yuanqi, Saxton, Alexandra, Ling, Hongyi, Lawrence, Hannah, Stärk, Hannes, Gui, Shurui, Edwards, Carl, Gao, Nicholas, Ladera, Adriana, Wu, Tailin, Hofgard, Elyssa F., Tehrani, Aria Mansouri, Wang, Rui, Daigavane, Ameya, Bohde, Montgomery, Kurtin, Jerry, Huang, Qian, Phung, Tuong, Xu, Minkai, Joshi, Chaitanya K., Mathis, Simon V., Azizzadenesheli, Kamyar, Fang, Ada, Aspuru-Guzik, Alán, Bekkers, Erik, Bronstein, Michael, Zitnik, Marinka, Anandkumar, Anima, Ermon, Stefano, Liò, Pietro, Yu, Rose, Günnemann, Stephan, Leskovec, Jure, Ji, Heng, Sun, Jimeng, Barzilay, Regina, Jaakkola, Tommi, Coley, Connor W., Qian, Xiaoning, Qian, Xiaofeng, Smidt, Tess, and Ji, Shuiwang

Subjects
Computer Science - Machine Learning, Physics - Computational Physics
Abstract

Advances in artificial intelligence (AI) are fueling a new paradigm of discoveries in natural sciences. Today, AI has started to advance natural sciences by improving, accelerating, and enabling our understanding of natural phenomena at a wide range of spatial and temporal scales, giving rise to a new area of research known as AI for science (AI4Science). Being an emerging research paradigm, AI4Science is unique in that it is an enormous and highly interdisciplinary area. Thus, a unified and technical treatment of this field is needed yet challenging. This work aims to provide a technically thorough account of a subarea of AI4Science; namely, AI for quantum, atomistic, and continuum systems. These areas aim at understanding the physical world from the subatomic (wavefunctions and electron density), atomic (molecules, proteins, materials, and interactions), to macro (fluids, climate, and subsurface) scales and form an important subarea of AI4Science. A unique advantage of focusing on these areas is that they largely share a common set of challenges, thereby allowing a unified and foundational treatment. A key common challenge is how to capture physics first principles, especially symmetries, in natural systems by deep learning methods. We provide an in-depth yet intuitive account of techniques to achieve equivariance to symmetry transformations. We also discuss other common technical challenges, including explainability, out-of-distribution generalization, knowledge transfer with foundation and large language models, and uncertainty quantification. To facilitate learning and education, we provide categorized lists of resources that we found to be useful. We strive to be thorough and unified and hope this initial effort may trigger more community interests and efforts to further advance AI4Science.

Published
2023

47. Fast high-resolution metabolite mapping in the rat brain using 1H-FID-MRSI at 14.1T

Author

Simicic, Dunja, Alves, Brayan, Mosso, Jessie, Briand, Guillaume, Lê, Thanh Phong, van Heeswijk, Ruud B., Starčuková, Jana, Lanz, Bernard, Klauser, Antoine, Strasser, Bernhard, Bogner, Wolfgang, and Cudalbu, Cristina

Subjects
Physics - Medical Physics
Abstract

Magnetic resonance spectroscopic imaging (MRSI) enables the simultaneous non-invasive acquisition of MR spectra from multiple spatial locations inside the brain. While 1H-MRSI is increasingly used in the human brain, it is not yet widely applied in the preclinical settings, mostly because of difficulties specifically related to very small nominal voxel size in the rodent brain and low concentration of brain metabolites, resulting in low signal-to-noise ratio SNR. In this context, we implemented a free induction decay 1H-MRSI sequence (1H-FID-MRSI) in the rat brain at 14.1T. We combined the advantages of 1H-FID-MRSI with the ultra-high magnetic field to achieve higher SNR, coverage and spatial resolution in the rodent brain, and developed a custom dedicated processing pipeline with a graphical user interface: MRS4Brain toolbox. LCModel fit, using the simulated metabolite basis-set and in-vivo measured MM, provided reliable fits for the data at acquisition delays of 1.3 and 0.94 ms. The resulting Cram\'er-Rao lower bounds were sufficiently low (<30%) for eight metabolites of interest, leading to highly reproducible metabolic maps. Similar spectral quality and metabolic maps were obtained between 1 and 2 averages, with slightly better contrast and brain coverage due to increased SNR in the latter case. Furthermore, the obtained metabolic maps were accurate enough to confirm the previously known brain regional distribution of some metabolites. The acquisitions proved high reproducibility over time. We demonstrated that the increased SNR and spectral resolution at 14.1T can be translated into high spatial resolution in 1H-FID-MRSI of the rat brain in 13 minutes, using the sequence and processing pipeline described herein. High-resolution 1H-FID-MRSI at 14.1T provided reproducible and high-quality metabolic mapping of brain metabolites with significantly reduced technical limitations., Comment: Dunja Simicic and Brayan Alves are joint first authors

Published
2023

49. Implementing palliative care in hepatocellular carcinoma ambulatory clinics—study protocol for Accelerated translational research in PRImary liver CAncer (APRICA) randomised controlled palliative care trial

Author

Gofton, Cameron, Di Bartolomeo, Anna, Boutros, Rose, Zurynski, Yvonne A., Stafford-Bell, Fiona, Caldwell, Kim, McCaughan, Geoffrey, Zekry, Amany, Strasser, Simone I., Levy, Miriam, Sheehan, Caitlin, Goodall, Stephen, Davis, Jan Maree, Sheahan, Linda, Liu, Ken, Greenaway, Sally, Davison, Scott, Du Huynh, Thang, Quadri, Zujaj, Agar, Meera, and George, Jacob

Published
2024
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