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1. Monitoring and Quantifying Soil Erosion and Sedimentation Rates in Centimeter Accuracy Using UAV-Photogrammetry, GNSS, and t-LiDAR in a Post-Fire Setting

Author

Simoni Alexiou, Ioannis Papanikolaou, Sascha Schneiderwind, Valerie Kehrle, and Klaus Reicherter

Subjects
soil erosion, geoenvironment, point cloud, remote sensing, structure from motion, TLS, Science
Abstract

Remote sensing techniques, namely Unmanned Aerial Vehicle (UAV) photogrammetry and t-LiDAR (terrestrial Light Detection and Ranging), two well-established techniques, were applied for seven years in a mountainous Mediterranean catchment in Greece (Ilioupoli test site, Athens), following a wildfire event in 2015. The goal was to monitor and quantify soil erosion and sedimentation rates with cm accuracy. As the frequency of wildfires in the Mediterranean has increased, this study aims to present a methodological approach for monitoring and quantifying soil erosion and sedimentation rates in post-fire conditions, through high spatial resolution field measurements acquired using a UAV survey and a t-LiDAR (or TLS—Terrestrial Laser Scanning), in combination with georadar profiles (Ground Penetration Radar—GPR) and GNSS. This test site revealed that 40 m3 of sediment was deposited following the first intense autumn rainfall events, a value that was decreased by 50% over the next six months (20 m3). The UAV–SfM technique revealed only 2 m3 of sediment deposition during the 2018–2019 analysis, highlighting the decrease in soil erosion rates three years after the wildfire event. In the following years (2017–2021), erosion and sedimentation decreased further, confirming the theoretical pattern, whereas sedimentation over the first year after the fire was very high and then sharply lessened as vegetation regenerated. The methodology proposed in this research can serve as a valuable guide for achieving high-precision sediment yield deposition measurements based on a detailed analysis of 3D modeling and a point cloud comparison, specifically leveraging the dense data collection facilitated by UAV–SfM and TLS technology. The resulting point clouds effectively replicate the fine details of the topsoil microtopography within the upland dam basin, as highlighted by the profile analysis. Overall, this research clearly demonstrates that after monitoring the upland area in post-fire conditions, the UAV–SfM method and LiDAR cm-scale data offer a realistic assessment of the retention dam’s life expectancy and management planning. These observations are especially crucial for assessing the impacts in the wildfire-affected areas, the implementation of mitigation strategies, and the construction and maintenance of retention dams.

Published
2024
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2. Supercurrent Multiplexing with Solid-State Integrated Hybrid Superconducting Electronics

Author

Paghi, Alessandro, Borgongino, Laura, Tortorella, Simone, De Simoni, Giorgio, Strambini, Elia, Sorba, Lucia, and Giazotto, Francesco

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

Time Division Multiplexing (TDM) of cryogenic signal lines is a promising technique that can significantly reduce the required space, minimize the cooldown time, and increase the number of measurable quantum devices per cooldown. Here, we report the TDM of supercurrent with a 1-input-8-outputs voltage-actuated hybrid superconducting demultiplexer for the first time. The device comprises 14 ON/OFF InAsOI-based superconducting Josephson Field Effect Transistors (JoFETs) routed with Al traces. Each JoFET features Al as a superconductor and HfO2 as a gate insulator, and it can entirely suppress the switching current and increase the normal-state resistance by 20 times with a gate voltage of -4.5 V. The superconducting demultiplexer operates up to 100 MHz at 50 mK, features an insertion loss of ~ 0 dB in the superconducting state, and an OFF/ON ratio of ~ 17.5 dB in a 50-Ohm-matched cryogenic measurement setup. The frequency operation range can be extended by designing the demultiplexer with a proper microwave signal transport layout minimizing, at the same time, the impact of the parasitic electrical elements. These achievements open up the practical implementation of superconducting TDM as a key to drastically reducing I/O lines, costs, and space occupation in a cryostat, enabling the scalability of superconducting electronics., Comment: 13 pages, 5 figures, supporting information at the end of the paper. arXiv admin note: text overlap with arXiv:2405.07630

Published
2024

3. Autonomous Navigation and Collision Avoidance for Mobile Robots: Classification and Review

Author

de Carvalho, Marcus Vinicius Leal, Simoni, Roberto, and Yoshioka, Leopoldo

Subjects
Computer Science - Robotics, Computer Science - Software Engineering, 68T40 (Artificial Intelligence), I.2.9, I.2.7, I.2.10
Abstract

This paper introduces a novel classification for Autonomous Mobile Robots (AMRs), into three phases and five steps, focusing on autonomous collision-free navigation. Additionally, it presents the main methods and widely accepted technologies for each phase of the proposed classification. The purpose of this classification is to facilitate understanding and establish connections between the independent input variables of the system (hardware, software) and autonomous navigation. By analyzing well-established technologies in terms of sensors and methods used for autonomous navigation, this paper aims to provide a foundation of knowledge that can be applied in future projects of mobile robots., Comment: This paper was presented at the JAR Congress in Buenos Aires, Argentina, and published as ID 27 at 9:20 on June 5, 2024. You can find more details on the conference at the following link: https://jar.com.ar/programa.html#programa. Additionally, the content of the presentation was re-recorded and uploaded to YouTube for better understanding: https://www.youtube.com/watch?v=TU6EkT43VfE&t=4s

Published
2024
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4. Spin Dynamics in Hybrid Halide Perovskites -- Effect of Dynamical and Permanent Symmetry Breaking

Author

Li, Kejun, Xu, Junqing, Huynh, Uyen N., Bodin, Rikard, Gupta, Mayank, Multunas, Christian, Simoni, Jacopo, Sundararaman, Ravishankar, Verdany, Zeev Valy, and Ping, Yuan

Subjects
Condensed Matter - Materials Science
Abstract

The hybrid organic-inorganic halide perovskite (HOIP), for example MAPbBr3, exhibits extended spin lifetime and apparent spin lifetime anisotropy in experiments. The underlying mechanisms of these phenomena remain illusive. By utilizing our first-principles densitymatrix dynamics approach with quantum scatterings including electron-phonon and electronelectron interactions and self-consistent spinorbit coupling, we present temperature- and magnetic field-dependent spin lifetimes in hybrid perovskites, in agreement with experimental observations. For centrosymmetric hybrid perovskite MAPbBr3, the experimentally observed spin lifetime anisotropy is mainly attributed to the dynamical Rashba effect arising from the interaction between organic and inorganic components and the rotation of the organic cation. For noncentrosymmetric perovskite, such as MPSnBr3, we found persistent spin helix texture at the conduction band minimum, which significantly enhances the spin lifetime anisotropy. Our study provides theoretical insight to spin dynamics in HOIP and strategies for controlling and optimizing spin transport.

Published
2024

5. Depth-based Privileged Information for Boosting 3D Human Pose Estimation on RGB

Author

Simoni, Alessandro, Marchetti, Francesco, Borghi, Guido, Becattini, Federico, Davoli, Davide, Garattoni, Lorenzo, Francesca, Gianpiero, Seidenari, Lorenzo, and Vezzani, Roberto

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

Despite the recent advances in computer vision research, estimating the 3D human pose from single RGB images remains a challenging task, as multiple 3D poses can correspond to the same 2D projection on the image. In this context, depth data could help to disambiguate the 2D information by providing additional constraints about the distance between objects in the scene and the camera. Unfortunately, the acquisition of accurate depth data is limited to indoor spaces and usually is tied to specific depth technologies and devices, thus limiting generalization capabilities. In this paper, we propose a method able to leverage the benefits of depth information without compromising its broader applicability and adaptability in a predominantly RGB-camera-centric landscape. Our approach consists of a heatmap-based 3D pose estimator that, leveraging the paradigm of Privileged Information, is able to hallucinate depth information from the RGB frames given at inference time. More precisely, depth information is used exclusively during training by enforcing our RGB-based hallucination network to learn similar features to a backbone pre-trained only on depth data. This approach proves to be effective even when dealing with limited and small datasets. Experimental results reveal that the paradigm of Privileged Information significantly enhances the model's performance, enabling efficient extraction of depth information by using only RGB images., Comment: ECCV 2024 Workshop T-CAP: TOWARDS A COMPLETE ANALYSIS OF PEOPLE: FINE-GRAINED UNDERSTANDING FOR REAL-WORLD APPLICATIONS

Published
2024

6. KRONC: Keypoint-based Robust Camera Optimization for 3D Car Reconstruction

Author

Di Nucci, Davide, Simoni, Alessandro, Tomei, Matteo, Ciuffreda, Luca, Vezzani, Roberto, and Cucchiara, Rita

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

The three-dimensional representation of objects or scenes starting from a set of images has been a widely discussed topic for years and has gained additional attention after the diffusion of NeRF-based approaches. However, an underestimated prerequisite is the knowledge of camera poses or, more specifically, the estimation of the extrinsic calibration parameters. Although excellent general-purpose Structure-from-Motion methods are available as a pre-processing step, their computational load is high and they require a lot of frames to guarantee sufficient overlapping among the views. This paper introduces KRONC, a novel approach aimed at inferring view poses by leveraging prior knowledge about the object to reconstruct and its representation through semantic keypoints. With a focus on vehicle scenes, KRONC is able to estimate the position of the views as a solution to a light optimization problem targeting the convergence of keypoints' back-projections to a singular point. To validate the method, a specific dataset of real-world car scenes has been collected. Experiments confirm KRONC's ability to generate excellent estimates of camera poses starting from very coarse initialization. Results are comparable with Structure-from-Motion methods with huge savings in computation. Code and data will be made publicly available., Comment: Accepted at ECCVW

Published
2024

7. Modular variable laser cooling for efficient entropy extraction

Author

de Neeve, Brennan, Nguyen, Thanh-Long, Ferk, Alexander, Behrle, Tanja, Lancellotti, Francesco, Simoni, Matteo, Welte, Stephan, and Home, Jonathan

Subjects
Quantum Physics
Abstract

We propose and experimentally demonstrate a method for laser cooling an oscillator based on sequences of spin-state-dependent displacements followed by spin repumping. For a thermal state with mean occupation $\bar{n}\gg 1$ the method attains a reduction to 0.632 of the initial thermal oscillator occupation for two repumps of the two-level spin state. This is within a factor of 2.53 of the optimum that might be expected due to the reduction of the oscillator entropy by $2 \ln(2)$. We show that the method, which is based on encoding the value of the modular-variable of the oscillator into the spin, has a simple semi-classical description in terms of a Bayesian update. We demonstrate the method experimentally using the internal and motional states of a single trapped ion.

Published
2024

8. Dynamic Label Injection for Imbalanced Industrial Defect Segmentation

Author

Caruso, Emanuele, Pelosin, Francesco, Simoni, Alessandro, and Boschetti, Marco

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

In this work, we propose a simple yet effective method to tackle the problem of imbalanced multi-class semantic segmentation in deep learning systems. One of the key properties for a good training set is the balancing among the classes. When the input distribution is heavily imbalanced in the number of instances, the learning process could be hindered or difficult to carry on. To this end, we propose a Dynamic Label Injection (DLI) algorithm to impose a uniform distribution in the input batch. Our algorithm computes the current batch defect distribution and re-balances it by transferring defects using a combination of Poisson-based seamless image cloning and cut-paste techniques. A thorough experimental section on the Magnetic Tiles dataset shows better results of DLI compared to other balancing loss approaches also in the challenging weakly-supervised setup. The code is available at https://github.com/covisionlab/dynamic-label-injection.git, Comment: ECCV 2024 VISION Workshop

Published
2024

9. Spin Relaxation and Diffusion in Monolayer 1T'-WTe$_2$ from First-Principles

Author

Xu, Junqing, Takenaka, Hiroyuki, Grieder, Andrew, Simoni, Jacopo, Sundraraman, Ravishankar, and Ping, Yuan

Subjects
Condensed Matter - Mesoscale and Nanoscale Physics
Abstract

Understanding spin relaxation in topological systems such as quantum spin-hall (QSH) insulator is critical for realizing coherent transport at high temperature. WTe$_{2}$, known as a QSH insulator with a high transition temperature of 100K, is an important test-bed of unveiling spin relaxation mechanism in topological materials. In this work, we employ our recently-developed \emph{ab initio} density-matrix dynamics approach to investigate spin relaxation mechanism, and calculate spin lifetime and diffusion length of monolayer 1T'-WTe$_{2}$, at finite temperature under an external electric field. We found the spin lifetime of electrons have the largest anisotropy when measuring along the canted-spin-texture direction. Moreover, we found an opposite trend between spin and carrier relaxation against applied electric field. Most importantly, the relaxation mechanism under intermediate electric field around 1V/nm can not be explained by either Eillot-Yafet or Dyakonov-Perel models, which highlights the generality of our \emph{ab initio} density-matrix framework. We then proposed analytical models to explain its mechanism and compare well with \emph{ab initio} results at small and large electric field. We predict that spin lifetime and spin diffusion length of bulk-state electrons are $\sim$1 ps and $\sim$30 nm at room temperature respectively, suggesting its promise for spintronic applications.

Published
2024

10. Stabilization of cat-state manifolds using nonlinear reservoir engineering

Author

Rojkov, Ivan, Simoni, Matteo, Zapusek, Elias, Reiter, Florentin, and Home, Jonathan

Subjects
Quantum Physics
Abstract

We introduce a novel reservoir engineering approach for stabilizing multi-component Schr\"odinger's cat manifolds. The fundamental principle of the method lies in the destructive interference at crossings of gain and loss Hamiltonian terms in the coupling of an oscillator to a zero-temperature auxiliary system, which are nonlinear with respect to the oscillator's energy. The nature of these gain and loss terms is found to determine the rotational symmetry, energy distributions, and degeneracy of the resulting stabilized manifolds. Considering these systems as bosonic error-correction codes, we analyze their properties with respect to a variety of errors, including both autonomous and passive error correction, where we find that our formalism gives straightforward insights into the nature of the correction. We give example implementations using the anharmonic laser-ion coupling of a trapped ion outside the Lamb-Dicke regime as well as nonlinear superconducting circuits. Beyond the dissipative stabilization of standard cat manifolds and novel rotation symmetric codes, we demonstrate that our formalism allows for the stabilization of bosonic codes linked to cat states through unitary transformations, such as quadrature-squeezed cats. Our work establishes a design approach for creating and utilizing codes using nonlinearity, providing access to novel quantum states and processes across a range of physical systems., Comment: 31 pages, 14 figures. Comments welcome

Published
2024

11. MoRSE: Bridging the Gap in Cybersecurity Expertise with Retrieval Augmented Generation

Author

Simoni, Marco, Saracino, Andrea, P., Vinod, and Conti, Mauro

Subjects
Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Information Retrieval
Abstract

In this paper, we introduce MoRSE (Mixture of RAGs Security Experts), the first specialised AI chatbot for cybersecurity. MoRSE aims to provide comprehensive and complete knowledge about cybersecurity. MoRSE uses two RAG (Retrieval Augmented Generation) systems designed to retrieve and organize information from multidimensional cybersecurity contexts. MoRSE differs from traditional RAGs by using parallel retrievers that work together to retrieve semantically related information in different formats and structures. Unlike traditional Large Language Models (LLMs) that rely on Parametric Knowledge Bases, MoRSE retrieves relevant documents from Non-Parametric Knowledge Bases in response to user queries. Subsequently, MoRSE uses this information to generate accurate answers. In addition, MoRSE benefits from real-time updates to its knowledge bases, enabling continuous knowledge enrichment without retraining. We have evaluated the effectiveness of MoRSE against other state-of-the-art LLMs, evaluating the system on 600 cybersecurity specific questions. The experimental evaluation has shown that the improvement in terms of relevance and correctness of the answer is more than 10\% compared to known solutions such as GPT-4 and Mixtral 7x8.

Published
2024

12. A quasiparticle-injection superconducting microwave relaxation oscillator

Author

Trupiano, Giacomo, De Simoni, Giorgio, and Giazotto, Francesco

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

We propose a superconducting microwave relaxation oscillator based on a nanowire shunted by a resistor and an inductor controlled by quasiparticle injection from a tunnel junction positioned on it: the QUISTRON. This device exhibits relaxation oscillator behavior with DC voltage-controlled frequency tuning and DC current bias. The device frequency is modulated via the tunnel junction, which induces localized heating by injecting quasiparticles. This heating mechanism modulates the nanowire switching current, enabling relaxation oscillations when it falls below the bias current. We demonstrate the device operating principles and characterize its performance across various parameters, including different choices of shunt resistor, shunt inductance, and bath temperature ranging from 20 mK to 1 K. The device showed oscillation with a frequency range approximately between 1 GHz and 10 GHz and total energy dissipation per cycle of $\sim100$ zJ. Our results suggest that this design offers a promising platform for compact, tunable superconducting oscillators in the microwave spectrum with potential applications in quantum information processing, microwave technology, and ultra-low-power electronics. The straightforward frequency control mechanism and integration potential make this device an attractive candidate for superconducting microwave local oscillators., Comment: 17 pages, 7 figures

Published
2024

13. Cryogenic Behavior of High-Permittivity Gate Dielectrics: The Impact of the Atomic Layer Deposition Temperature and the Lithography Pattering Method

Author

Paghi, Alessandro, Battisti, Sebastiano, Tortorella, Simone, De Simoni, Giorgio, and Giazotto, Francesco

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

Dielectrics featuring a high relative permittivity, i.e., high-k dielectrics, have become the standard insulators in gate architectures, enhancing the electrical performance of both room temperature and cryogenic electronics. This study delves into the cryogenic (3 K) performance of high-k dielectrics commonly used as gate insulators. We fabricated Al2O3 and HfO2 layers via Atomic Layer Deposition (ALD) and we extrapolated relative permittivity (k) and dielectric strength (EBD) from AC (100 Hz to 100 kHz) and DC measurements on metal-insulator-metal capacitors. Our findings reveal a strong dependence of HfO2 cryogenic performance on the ALD growth temperature, while the latter shows a negligible impact on Al2O3. We estimated a ~9 % and ~14 % reduction of the relative permittivity of HfO2 and Al2O3, respectively, from 300 K to 3 K. Additionally, we designed and fabricated Al2O3/HfO2 bilayers and we checked their properties at cryogenic temperatures. The study also investigates the impact of the patterning method, namely, UV or electron-beam lithography (acceleration voltage of 10, 20, or 30 kV), on the high-k dielectric properties., Comment: 22 pages, 4 figures, supporting information at the end of the paper

Published
2024

14. Measuring Annual Sedimentation through High Accuracy UAV-Photogrammetry Data and Comparison with RUSLE and PESERA Erosion Models

Author

Simoni Alexiou, Nikolaos Efthimiou, Mina Karamesouti, Ioannis Papanikolaou, Emmanouil Psomiadis, and Nikos Charizopoulos

Subjects
soil erosion, RUSLE, PESERA, UAV, point cloud, Structure-from-Motion, Science
Abstract

Model-based soil erosion studies have increased in number, given the availability of geodata and the recent technological advances. However, their accuracy remains rather questionable since the scarcity of field records hinders the validation of simulated values. In this context, this study aims to present a method for measuring sediment deposition at a typical Mediterranean catchment (870 ha) in Greece through high spatial resolution field measurements acquired by an Unmanned Aerial Vehicle (UAV) survey. Three-dimensional modeling is considered to be an emerging technique for surface change detection. The UAV-derived point cloud comparison, applying the Structure-from-Motion (SfM) technique at the Platana sediment retention dam test site, quantified annual topsoil change in cm-scale accuracy (0.02–0.03 m), delivering mean sediment yield of 1620 m3 ± 180 m3 or 6.05 t ha−1yr−1 and 3500 m3 ± 194 m3 or 13 t ha−1yr−1 for the 2020–2021 and 2021–2022 estimation. Moreover, the widely applied PESERA and RUSLE models estimated the 2020–2021 mean sediment yield at 1.12 t ha−1yr−1 and 3.51 t ha−1yr−1, respectively, while an increase was evident during the 2021–2022 simulation (2.49 t ha−1yr−1 and 3.56 t ha−1yr−1, respectively). Both applications appear to underestimate the net soil loss rate, with RUSLE being closer to the measured results. The difference is mostly attributed to the model’s limitation to simulate gully erosion or to a C-factor misinterpretation. To the authors’ better knowledge, this study is among the few UAV applications employed to acquire high-accuracy soil loss measurements. The results proved extremely useful in our attempt to measure sediment yield at the cm scale through UAV-SfM and decipher the regional soil erosion and sediment transport pattern, also offering a direct assessment of the retention dams’ life expectancy.

Published
2023
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15. Simulations of the occurrence of runoff-generated debris flows by means of hydrological models in headwater rocky basins

Author

Bernard Martino, Barbini Matteo, Battistel Leonardo, Berti Matteo, Simoni Alessandro, and Gregoretti Carlo

Subjects
Environmental sciences, GE1-350
Abstract

The simulation of the occurrence of the runoff-generated debris flows can be approached by means of hydrological models. In this work, we show that a rainfall-runoff model designed for the simulation of runoff in headwater rocky basins can capture both the transit timing of the first debris-flow surge and its hydrograph. We successfully compared the stage hydrograph of debris flows with that of the simulated runoff in two headwater rocky basins of Dolomites.

Published
2023
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16. Rockfalls change the runout and frequency of debris flows at Punta Nera (Eastern Italian Alps)

Author

Simoni Alessandro, Barbini Matteo, Battistel Leonardo, Bernard Martino, Berti Matteo, Cargnel Osvaldo, Ciuffi Pier Paolo, and Gregoretti Carlo

Subjects
Environmental sciences, GE1-350
Abstract

In the Dolomitic region, many debris flow basins have headwaters characterized by extremely steep slopes of bare outcropping rock. Cliffs are commonly incised by multiple chutes which rapidly deliver runoff at their base where the channels incise scree deposits. Debris flows mobilize and transport sediment along such ephemeral channels following intense summer convective rainstorms. In the debris flow basin of Punta Nera, a series of rockfalls, which occurred in the upper part of the headwater between 2013 and 2016, caused dramatic changes in the debris flow dynamics. Starting from the summer of 2014, the runout of debris flow events increased so much that it reached the national road, which runs at the toe of the debris flow fan, attracting media attention and prompting the adoption of protective measures. Here, we use newspaper reports, direct observations, aerial and terrestrial photograph, monitoring data and topographic surveys to document the rockfalls and the debris flow activity. The sudden increase in sediment availability changed the magnitude of events, their runout and the critical conditions for debris-flow occurrence.

Published
2023
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17. Characterization of a debris flow event using an affordable monitoring system

Author

Berti Matteo, Schimmel Andreas, Coviello Velio, Venturelli Mario, Albertelli Luca, Beretta Luca, Brardinoni Francesco, Ceriani Massimo, Pilotti Marco, Ranzi Roberto, Redaelli Marco, Scotti Riccardo, Simoni Alessandro, Turconi Laura, and Luino Fabio

Subjects
Environmental sciences, GE1-350
Abstract

This study presents monitoring data of a debris flow event in the Central Italian Alps. The debris flow occurred on August 16, 2021 in the Blè basin (Val Camonica valley, Lombardia Region) and was recorded by a monitoring station installed just few weeks before. The monitoring system was deployed to document the hydrologic response of the catchment to rainfall, and was designed to be lightweight, relatively cheap, and easy to deploy in the field. To this purpose, we combined video cameras with geophysical sensors (geophones and infrasound) and optimized the power supply system. The data recorded during the event allowed to identify the triggering rainfall, document the flow behaviour, and estimate surface flow velocity and flow rate using Particle Image Velocimetry algorithms. Moreover, the seismic signal generated by the debris flow revealed a peculiar frequency spectrum compared to regular streamflow. These results show that even a relatively simple monitoring system may provide valuable data on real debris flow events.

Published
2023
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18. Expert opinion on the use of contraception in people with multiple sclerosis.

Author

Hillert, Jan, Bove, Riley, Haddad, Lisa, Hellwig, Kerstin, Houtchens, Maria, Magyari, Melinda, Merki-Feld, Gabriele, Montgomery, Scott, Nappi, Rossella, Stenager, Egon, Thompson, Heidi, Tulek, Zeliha, Verdun Di Cantogno, Elisabetta, and Simoni, Manuela

Subjects
Multiple sclerosis, consensus, contraception, disease-modifying therapy, expert opinion, reproductive health, Humans, Multiple Sclerosis, Contraception, Female, Consensus, Male, Delphi Technique, Expert Testimony
Abstract

BACKGROUND: Current guidance on the selection of appropriate contraception for people with multiple sclerosis (PwMS) is lacking. OBJECTIVE: To address this gap, an expert-led consensus program developed recommendations to support clinicians in discussing family planning and contraception with women and men with multiple sclerosis (MS). METHODS: A multidisciplinary steering committee (SC) of 13 international clinical experts led the program, supported by an extended faculty of 32 experts representing 18 countries. A modified Delphi methodology was used for decision-making and consensus-building. The SC drafted 15 clinical questions focused on patient-centered care, selection of contraception, and timing of stopping/starting contraception and disease-modifying therapies (DMTs). Statements addressing each question were drafted based on evaluation of published evidence and the experts clinical experience. Consensus was reached if ⩾75% of respondents agreed (scoring 7-9 on a 9-point scale) with each recommendation. RESULTS: Consensus was reached on 24 of 25 proposed recommendations, including how and when to discuss contraception, types and safety of contraceptives, and how to evaluate the most appropriate contraceptive options for specific patient groups, including those with significant disability or being treated with DMTs. CONCLUSION: These expert recommendations provide the first practical, relevant, and comprehensive guidance for clinicians on the selection of contraception in PwMS.

Published
2024

19. The HEALthy Brain and Child Development Study (HBCD): NIH collaboration to understand the impacts of prenatal and early life experiences on brain development.

Author

Volkow, Nora, Gordon, Joshua, Bianchi, Diana, Chiang, Michael, Clayton, Janine, Klein, William, Koob, George, Koroshetz, Walter, Pérez-Stable, Eliseo, Simoni, Jane, Tromberg, Bruce, Woychik, Richard, Hommer, Rebecca, Spotts, Erica, Xu, Benjamin, Zehr, Julia, Cole, Katherine, Dowling, Gayathri, Freund, Michelle, Howlett, Katia, Jordan, Chloe, Murray, Traci, Pariyadath, Vani, Prabhakar, Janani, Rankin, Michele, Sarampote, Christopher, and Weiss, Susan

Subjects
Brain development, HBCD, Longitudinal, Neuroimaging, Prenatal substance use, Social determinants of health
Abstract

The human brain undergoes rapid development during the first years of life. Beginning in utero, a wide array of biological, social, and environmental factors can have lasting impacts on brain structure and function. To understand how prenatal and early life experiences alter neurodevelopmental trajectories and shape health outcomes, several NIH Institutes, Centers, and Offices collaborated to support and launch the HEALthy Brain and Child Development (HBCD) Study. The HBCD Study is a multi-site prospective longitudinal cohort study, that will examine human brain, cognitive, behavioral, social, and emotional development beginning prenatally and planned through early childhood. Influenced by the success of the ongoing Adolescent Brain Cognitive DevelopmentSM Study (ABCD Study®) and in partnership with the NIH Helping to End Addiction Long-term® Initiative, or NIH HEAL Initiative®, the HBCD Study aims to establish a diverse cohort of over 7000 pregnant participants to understand how early life experiences, including prenatal exposure to addictive substances and adverse social environments as well as their interactions with an individuals genes, can affect neurodevelopmental trajectories and outcomes. Knowledge gained from the HBCD Study will help identify targets for early interventions and inform policies that promote resilience and mitigate the neurodevelopmental effects of adverse childhood experiences and environments.

Published
2024

20. Extremely weak sub-kelvin electron-phonon coupling in InAs On Insulator

Author

Battisti, Sebastiano, De Simoni, Giorgio, Braggio, Alessandro, Paghi, Alessandro, Sorba, Lucia, and Giazotto, Francesco

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

We are proposing, as an ideal candidate for caloritronic devices operating at subKelvin temperatures, a hybrid superconductor-semiconductor platform named InAs on insulator (InAsOI). This heterostructure is made by doped InAs grown on an insulating buffer of InAlAs on a GaAs substrate. Caloritronic devices aim to heat or cool electrons out of equilibrium with respect to the phonon degree of freedom. However, their performances are usually limited by the strength of the electron-phonon (e-ph) coupling and the associated power loss. Our work discusses the advantages of the InAsOI platform, which are based on the significantly low e-ph coupling measured compared to all-metallic state-of-the-art caloritronic devices. Our structure demonstrates values of the e-ph coupling constant up to two orders of magnitude smaller than typical values in metallic structures., Comment: 7 pages, 4 figures

Published
2024
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21. InAs on Insulator: A New Platform for Cryogenic Hybrid Superconducting Electronics

Author

Paghi, Alessandro, Trupiano, Giacomo, De Simoni, Giorgio, Arif, Omer, Sorba, Lucia, and Giazotto, Francesco

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

Superconducting circuits based on hybrid InAs Josephson Junctions (JJs) play a starring role in the design of fast and ultra-low power consumption solid-state quantum electronics and exploring novel physical phenomena. Conventionally, 3D substrates, 2D quantum wells (QWs), and 1D nanowires (NWs) made of InAs are employed to create superconductive circuits with hybrid JJs. Each platform has its advantages and disadvantages. Here, we proposed the InAs-on-insulator (InAsOI) as a groundbreaking platform for developing superconducting electronics. An epilayer of semiconductive InAs with different electron densities was grown onto an InAlAs metamorphic buffer layer, efficiently used as a cryogenic insulator to decouple adjacent devices electrically. JJs with various lengths and widths were fabricated employing Al as a superconductor and InAs with different electron densities. We achieved a switching current density of 7.3 uA/um, a critical voltage of 50-to-80 uV, and a critical temperature equal to that of the superconductor used. For all the JJs, the switching current follows a characteristic Fraunhofer pattern with an out-of-plane magnetic field. These achievements enable the use of InAsOI to design and fabricate surface-exposed Josephson Field Effect Transistors with high critical current densities and superior gating properties., Comment: 19 pages, 4 figures, supporting information at the end of the paper

Published
2024

22. Bayesian Bi-level Sparse Group Regressions for Macroeconomic Density Forecasting

Author

Mogliani, Matteo and Simoni, Anna

Subjects
Economics - Econometrics
Abstract

We propose a Machine Learning approach for optimal macroeconomic density forecasting in a high-dimensional setting where the underlying model exhibits a known group structure. Our approach is general enough to encompass specific forecasting models featuring either many covariates, or unknown nonlinearities, or series sampled at different frequencies. By relying on the novel concept of bi-level sparsity in time-series econometrics, we construct density forecasts based on a prior that induces sparsity both at the group level and within groups. We demonstrate the consistency of both posterior and predictive distributions. We show that the posterior distribution contracts at the minimax-optimal rate and, asymptotically, puts mass on a set that includes the support of the model. Our theory allows for correlation between groups, while predictors in the same group can be characterized by strong covariation as well as common characteristics and patterns. Finite sample performance is illustrated through comprehensive Monte Carlo experiments and a real-data nowcasting exercise of the US GDP growth rate.

Published
2024

24. Chromosome 9p trisomy increases stem cells clonogenic potential and fosters T-cell exhaustion in JAK2-mutant myeloproliferative neoplasms

Author

Carretta, Chiara, Parenti, Sandra, Bertesi, Matteo, Rontauroli, Sebastiano, Badii, Filippo, Tavernari, Lara, Genovese, Elena, Malerba, Marica, Papa, Elisa, Sperduti, Samantha, Enzo, Elena, Mirabile, Margherita, Pedrazzi, Francesca, Neroni, Anita, Tombari, Camilla, Mora, Barbara, Maffioli, Margherita, Mondini, Marco, Brociner, Marco, Maccaferri, Monica, Tenedini, Elena, Martinelli, Silvia, Bartalucci, Niccolò, Bianchi, Elisa, Casarini, Livio, Potenza, Leonardo, Luppi, Mario, Tagliafico, Enrico, Guglielmelli, Paola, Simoni, Manuela, Passamonti, Francesco, Norfo, Ruggiero, Vannucchi, Alessandro Maria, and Manfredini, Rossella

Published
2024
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27. Tunable Thermoelectric Superconducting Heat Pipe and Diode

Author

Antola, F., Braggio, A., De Simoni, G., and Giazotto, F.

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

Efficient heat management at cryogenic temperatures is crucial for superconducting quantum technologies. This study demonstrates the controlled manipulation of the heat flow and heat rectification through an asymmetric superconducting tunnel junction. The system exhibits a non-reciprocal behavior, developing a thermoelectric regime exclusively when the electrode with the larger gap is heated. This feature significantly boosts thermal rectification effectively classifying the device as a heat diode. At the same time when operating as a thermoelectric engine, the same device also functions as a heat pipe, expelling heat from the cryogenic environment, minimizing losses at the cold terminal. This dual functionality is inherently passive, and the performance of the heat pipe and the heat diode can be finely adjusted by modifying the external electrical load., Comment: 6 pages, 4 color figures

Published
2024
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28. Quasi-ideal feedback-loop supercurrent diode

Author

De Simoni, Giorgio and Giazotto, Francesco

Subjects
Condensed Matter - Superconductivity
Abstract

We suggest using a device called the Bootstrap Superconducting Quantum Interference Device (BS-SQUID) to break the reciprocity in charge transport. This device uses magnetic flux back-action to create a nonreciprocal current-voltage characteristic, which results in a supercurrent rectification coefficient of up to approximately 95\%. The BS-SQUID works as a quasi-ideal supercurrent diode (SD) and maintains its efficiency up to about 40\% of its critical temperature. The external magnetic flux can be used to adjust or reverse the rectification polarity. Finally, we discuss the finite-voltage operation regime of the SD and present a possible application of our device as a half- and full-wave signal rectifier in the microwave regime., Comment: 9 pages, 7 figures

Published
2024
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29. Detecting and Monitoring Early Post-Fire Sliding Phenomena Using UAV–SfM Photogrammetry and t-LiDAR-Derived Point Clouds

Author

Georgios Deligiannakis, Aggelos Pallikarakis, Ioannis Papanikolaou, Simoni Alexiou, and Klaus Reicherter

Subjects
forest fires, landslides, vegetation regrowth, Terrestrial Laser Scanning—TLS, soil erosion, post-fire effects, Physics, QC1-999
Abstract

Soil changes, including landslides and erosion, are some of the most prominent post-fire effects in Mediterranean ecosystems. Landslide detection and monitoring play an essential role in mitigation measures. We tested two different methodologies in five burned sites with different characteristics in Central Greece. We compared Unmanned Aerial Vehicles (UAV)-derived high-resolution Digital Surface Models and point clouds with terrestrial Light Detection and Ranging (LiDAR)-derived point clouds to reveal new cracks and monitor scarps of pre-existing landslides. New cracks and scarps were revealed at two sites after the wildfire, measuring up to 27 m in length and up to 25 ± 5 cm in depth. Pre-existing scarps in both Kechries sites appeared to be active, with additional vertical displacements ranging from 5–15 ± 5 cm. In addition, the pre-existing landslide in Magoula expanded by 8%. Due to vegetation regrowth, no changes could be detected in the Agios Stefanos pre-existing landslide. This high-spatial-resolution mapping of slope deformations can be used as landslide precursor, assisting prevention measures. Considering the lack of vegetation after wildfires, UAV photogrammetry has great potential for tracing such early landslide indicators and is more efficient for accurately recording soil changes.

Published
2021
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30. Bioactive Diterpenes from the Brazilian Native Plant (Moquiniastrum pulchrum) and Their Application in Weed Control

Author

Fátima Vela, Simoni Anese, Rosa M. Varela, Ascensión Torres, José M. G. Molinillo, and Francisco A. Macías

Subjects
Moquiniastrum pulchrum, flavones, diterpenes, phytotoxic, coleoptiles, weeds, Organic chemistry, QD241-441
Abstract

Even today, weeds continue to be a considerable problem for agriculture. The application of synthetic herbicides produces serious environmental consequences, and crops suffer loss of their activity due to the appearance of new resistant weed biotypes. Our aim is to develop new effective natural herbicides that improve the problem of resistance and do not harm the environment. This work is focused on a bioassay-guided isolation and the characterization of natural products present in Moquiniastrum pulchrum leaves with phytotoxic activity and its preliminary application in weeds. Moquiniastrum pulchrum was selected for two reasons: it is an abundant species in the Cerrado region (the second most important ecosystem in Brazil, after the Amazon)—the explanation behind its being a dominant species is a major focus of interest—and it has traditional employment in folk medicine. Six major compounds were isolated in this plant: one flavone and five diterpenes, two of which are described for the first time in the literature. Four of the six compounds exhibited phytotoxic activity in the bioassays performed. The results confirmed the phytotoxic potential of this plant, which had not been investigated until now.

Published
2021
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31. Produção de carne in vitro: nova realidade da sociedade moderna

Author

Ana Carolina Pelaes Vital, Emília Maria Barbosa Carvalho Kempinski, Laura Adriane de Moraes Pinto, Karina Favoreto Nascimento, Simoni Alexandre, and Ivanor Nunes do Prado

Subjects
Bem-estar animal, consumidores, novas tecnologias, alimentos não convencionais, Veterinary medicine, SF600-1100
Abstract

A produção de alimentos de formas não convencionais como a carne in vitro poderia, à primeira vista, ser de interesse popular, uma vez que poderia reduzir os prejuízos ao meio ambiente além de respeitar o bem-estar dos animais. No entanto, existem diversas barreiras e fatores limitantes que aparecem como obstáculos antes da produção em escala da carne in vitro. Ainda que a produção da carne in vitro pudesse responder e ultrapassar todos os questionamentos existentes, o grande desafio seria a aceitação pelos consumidores, a introdução de um novo hábito de consumo, o de consumir carne produzida em laboratório, esbarrando em questões éticas e culturais. Este estudo traz as principais dificuldades que podem ser enfrentadas para produção em escala da carne in vitro, além de uma pesquisa sobre o conhecimento e aceitação da população em relação ao consumo da mesma, sendo positivo o resultado encontrado.

Published
2017
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32. Parents' Preferences for Primary Care-Based Behavioral Services and the COVID-19 Pandemic: A Mixed Method Study

Author

Katherine A. Hails, Brianna C. Wellen, Marisa Simoni, Wendy M. Gaultney, Rachel A. Petts, Cody A. Hostutler, and Andrew R. Riley

Abstract

Objective: This study examined how family factors impacted parents' attitudes toward integrated behavioral health (IBH) in pediatric primary care during the COVID-19 pandemic. We hypothesized that COVID-19 impact would predict family functioning challenges, and that pre-existing familial contextual factors would predict parents' interest in IBH modalities. Methods: Parents of children ages 1.5-5 years (N = 301) from five primary care clinics completed a survey with measures assessing familial contextual factors (income, race and ethnicity, and parents' childhood adversity), COVID-19 impact on family relationships and wellbeing, family functioning (child behavior, parenting self-efficacy, and parent psychological functioning), and parents' preferences for behavioral support in primary care. A subsample of parents (n = 23) completed qualitative interviews to provide deeper insights into quantitative relationships. Results: Higher COVID-19 impact was significantly associated with worse parent mental health and child behavior problems, as well as lower interest in IBH virtual support options. Overall, lower SES and racial and/or ethnic minority parents both indicated greater interest in IBH modalities compared to higher SES and White parents, respectively. Qualitative interviews identified how pandemic stressors led to increases in parents' desire for behavioral support from pediatricians, with parents sharing perspectives on the nature of support they desired, including proactive communication from providers and variety and flexibility in the behavioral supports offered. Conclusions: Findings have important implications for the provision of behavioral supports for families in primary care, underlying the need to increase parents' access to IBH services by proactively providing evidence-based resources and continuing to offer telehealth support. [This paper was published in "Journal of Pediatric Psychology" v48 n11 p879-892 2023.]

Published
2023
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33. Comparing High Accuracy t-LiDAR and UAV-SfM Derived Point Clouds for Geomorphological Change Detection

Author

Simoni Alexiou, Georgios Deligiannakis, Aggelos Pallikarakis, Ioannis Papanikolaou, Emmanouil Psomiadis, and Klaus Reicherter

Subjects
Terrestrial Laser Scanning (TLS), Structure from Motion (SfM), drone, point cloud, soil erosion, wildfire, Geography (General), G1-922
Abstract

Analysis of two small semi-mountainous catchments in central Evia island, Greece, highlights the advantages of Unmanned Aerial Vehicle (UAV) and Terrestrial Laser Scanning (TLS) based change detection methods. We use point clouds derived by both methods in two sites (S1 & S2), to analyse the effects of a recent wildfire on soil erosion. Results indicate that topsoil’s movements in the order of a few centimetres, occurring within a few months, can be estimated. Erosion at S2 is precisely delineated by both methods, yielding a mean value of 1.5 cm within four months. At S1, UAV-derived point clouds’ comparison quantifies annual soil erosion more accurately, showing a maximum annual erosion rate of 48 cm. UAV-derived point clouds appear to be more accurate for channel erosion display and measurement, while the slope wash is more precisely estimated using TLS. Analysis of Point Cloud time series is a reliable and fast process for soil erosion assessment, especially in rapidly changing environments with difficult access for direct measurement methods. This study will contribute to proper georesource management by defining the best-suited methodology for soil erosion assessment after a wildfire in Mediterranean environments.

Published
2021
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36. Gender balance in skeletal radiology: suffrage rather than suffering?

Author

Giraudo, Chiara, Rosskopf, Andrea B., Klauser, Andrea Sabine, Pillai, Janani K., Adriaensen, Miraude, Bazzocchi, Alberto, Becce, Fabio, Bielecki, Dennis K., Boesen, Mikael, Cotten, Anne, Dalili, Danoob, Eshed, Iris, Feydy, Antoine, Grainger, Andrew, Guglielmi, Giuseppe, Herregods, Nele, Isaac, Amanda, Ivanac, Gordana, Jans, Lennart, Kainberger, Franz, Laloo, Frederiek, Lecouvet, Frederic, Llopis, Eva, Maas, Mario, Mascarenhas, Vasco, Martinoli, Carlo, Papakonstantinou, Olympia, Reijniersee, Monique, Simoni, Paolo, van der Heijden, Rianne, Sudol-Szopinska, Iwona, and Rennie, Winston J.

Published
2024
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42. Low-excitation transport and separation of high-mass-ratio mixed-species ion chains

Author

Lancellotti, Francesco, Welte, Stephan, Simoni, Matteo, Mordini, Carmelo, Behrle, Tanja, de Neeve, Brennan, Marinelli, Matteo, Negnevitsky, Vlad, and Home, Jonathan

Subjects
Quantum Physics
Abstract

We demonstrate low-excitation transport and separation of two-ion crystals consisting of one beryllium and one calcium ion, with a high mass ratio of $4.4$. The full separation involves transport of the mixed-species chain, splitting each ion into separate potential wells, and then transport of each ion prior to detection. We find the high mass ratio makes the protocol sensitive to mode crossings between axial and radial modes, as well as to uncontrolled radial electric fields that induce mass-dependent twists of the ion chain. By controlling these stages, we achieve excitation as low as $\bar{n}=1.40 \pm 0.08$ phonons for the calcium ion and $\bar{n}=1.44 \pm 0.09$ phonons for the beryllium ion. Separation and transport of mixed-species chains are key elements of the QCCD architecture, and may also be applicable to quantum-logic-based spectroscopy of exotic species.

Published
2023
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43. Gate-controlled supercurrent effect in dry-etched Dayem bridges of non-centrosymmetric niobium rhenium

Author

Koch, Jennifer, Cirillo, Carla, Battisti, Sebastiano, Ruf, Leon, Kakhaki, Zahra Makhdoumi, Paghi, Alessandro, Gulian, Armen, Teknowijoyo, Serafim, De Simoni, Giorgio, Giazotto, Francesco, Attanasio, Carmine, Scheer, Elke, and Di Bernardo, Angelo

Subjects
Condensed Matter - Superconductivity, Condensed Matter - Materials Science
Abstract

The application of a gate voltage to control the superconducting current flowing through a nanoscale superconducting constriction, named as gate-controlled supercurrent (GCS), has raised great interest for fundamental and technological reasons. To gain a deeper understanding of this effect and develop superconducting technologies based on it, the material and physical parameters crucial for GCS must be identified. Top-down fabrication protocols should be also optimized to increase device scalability, although studies suggest that top-down fabricated devices are more resilient to show GCS. Here, we investigate gated superconducting nanobridges made with a top-down fabrication process from thin films of the non-centrosymmetric superconductor NbRe. Unlike other devices previously reported, our NbRe devices systematically exhibit GCS, when made in specific conditions, which paves the way for higher device scalability. Our results also suggest that surface properties of NbRe nanobridges and their modification during fabrication are key for GCS., Comment: 14 pages, 4 figures

Published
2023
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44. Demonstration of high-impedance superconducting NbRe Dayem bridges

Author

Battisti, S., Koch, J., Paghi, A., Ruf, L., Gulian, A., Teknowijoyo, S., Cirillo, C., Kakhaki, Z. Makhdoumi, Attanasio, C., Scheer, E., Di Bernardo, A., De Simoni, G., and Giazotto, F.

Subjects
Condensed Matter - Superconductivity
Abstract

Here we demonstrate superconducting Dayem-bridge weak-links made of different stoichiometric compositions of NbRe. Our devices possess a relatively high critical temperature, normal-state resistance, and kinetic inductance. In particular, the high kinetic inductance makes this material a good alternative to more conventional niobium-based superconductors (e.g., NbN or NbTiN) for the realization of superinductors and high-quality factor resonators, whereas the high normal-state resistance yields a large output voltage in superconducting switches and logic elements realized upon this compound. Moreover, out-of-plane critical magnetic fields exceeding 2 T ensure that possible applications requiring high magnetic fields can also be envisaged. Altogether, these features make this material appealing for a number of applications in the framework of quantum technologies., Comment: 10 pages, 4 figures

Published
2023
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45. Surrogate-based Real-time Curbside Management for Ride-hailing and Delivery Operations

Author

Vishnoi, Suyash C. and Simoni, Michele D.

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

The present work investigates surrogate model-based optimization for real-time curbside traffic management operations. An optimization problem is formulated to minimize the congestion on roadway segments caused by vehicles stopping on the segment (e.g., ride-hailing or delivery operations) and implemented in a model predictive control framework. A hybrid simulation approach where main traffic flows interact with individually modeled stopping vehicles is adopted. Due to its non-linearity, the optimization problem is coupled with a meta-heuristic. However, because simulations are time expensive and hence unsuitable for real-time control, a trained surrogate model that takes the decision variables as inputs and approximates the objective function is employed to replace the simulation within the meta-heuristic algorithm. Several modeling techniques (i.e., linear regression, polynomial regression, neural network, radial basis network, regression tree ensemble, and Gaussian process regression) are compared based on their accuracy in reproducing solutions to the problem and computational tractability for real-time control under different configurations of simulation parameters. It is found that Gaussian process regression is the most suited for use as a surrogate model for the given problem. Finally, a realistic application with multiple ride-hailing vehicle operations is presented. The proposed approach for controlling the stop positions of vehicles is able to achieve an improvement of 20.65% over the uncontrolled case. The example shows the potential of the proposed approach in reducing the negative impacts of stopping vehicles and favorable computational properties.

Published
2023

46. Estimation of the FR4 Microwave Dielectric Properties at Cryogenic Temperature for Quantum-Chip-Interface PCBs Design

Author

Paghi, A., Trupiano, G., Puglia, C., Burgaud, H., De Simoni, G., Greco, A., and Giazotto, F.

Subjects
Physics - Instrumentation and Detectors, Physics - Applied Physics
Abstract

Ad-hoc interface PCBs are today the standard connection between cryogenic cabling and quantum chips. Besides low-loss and low-temperature-dependent-dielectric-permittivity materials, FR4 provides a low-cost solution for fabrication of cryogenic PCBs. Here, we report on an effective way to evaluate the dielectric performance of a FR4 laminate used as substrate for cryogenic microwave PCBs. We designed a coplanar waveguide {\lambda}/2 open-circuit series resonator and we fabricated the PCB using a low-cost manufacturing process. Such a geometry allows to exploit the resonance peak of the resonator to measure the variation of the complex dielectric permittivity as a function of the temperature. Resonance peak frequency and magnitude were used as sensing parameters for the real part of dielectric permittivity and dielectric loss tangent, respectively. We estimated a 9 % reduction of the real part of the dielectric permittivity and a 70 % reduction of the dielectric loss tangent in the temperature range from 300 to 4 K. The proposed approach can be immediately extended to the detection of cryogenic temperature-dependent dielectric performance of any kind on substrate., Comment: 5 pages, 6 figures, supporting information at the end of the paper

Published
2023
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47. Single-fly genome assemblies fill major phylogenomic gaps across the Drosophilidae Tree of Life

Author

Kim, Bernard Y, Gellert, Hannah R, Church, Samuel H, Suvorov, Anton, Anderson, Sean S, Barmina, Olga, Beskid, Sofia G, Comeault, Aaron A, Crown, K Nicole, Diamond, Sarah E, Dorus, Steve, Fujichika, Takako, Hemker, James A, Hrcek, Jan, Kankare, Maaria, Katoh, Toru, Magnacca, Karl N, Martin, Ryan A, Matsunaga, Teruyuki, Medeiros, Matthew J, Miller, Danny E, Pitnick, Scott, Schiffer, Michele, Simoni, Sara, Steenwinkel, Tessa E, Syed, Zeeshan A, Takahashi, Aya, Wei, Kevin H-C, Yokoyama, Tsuya, Eisen, Michael B, Kopp, Artyom, Matute, Daniel, Obbard, Darren J, O’Grady, Patrick M, Price, Donald K, Toda, Masanori J, Werner, Thomas, and Petrov, Dmitri A

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Evolutionary Biology, Genetics, Bioengineering, Human Genome, Biotechnology, Generic health relevance, Animals, Phylogeny, Drosophilidae, Genome, Insect, Genomics, Sequence Analysis, DNA, High-Throughput Nucleotide Sequencing, Agricultural and Veterinary Sciences, Medical and Health Sciences, Developmental Biology, Agricultural, veterinary and food sciences, Biological sciences, Biomedical and clinical sciences
Abstract

Long-read sequencing is driving rapid progress in genome assembly across all major groups of life, including species of the family Drosophilidae, a longtime model system for genetics, genomics, and evolution. We previously developed a cost-effective hybrid Oxford Nanopore (ONT) long-read and Illumina short-read sequencing approach and used it to assemble 101 drosophilid genomes from laboratory cultures, greatly increasing the number of genome assemblies for this taxonomic group. The next major challenge is to address the laboratory culture bias in taxon sampling by sequencing genomes of species that cannot easily be reared in the lab. Here, we build upon our previous methods to perform amplification-free ONT sequencing of single wild flies obtained either directly from the field or from ethanol-preserved specimens in museum collections, greatly improving the representation of lesser studied drosophilid taxa in whole-genome data. Using Illumina Novaseq X Plus and ONT P2 sequencers with R10.4.1 chemistry, we set a new benchmark for inexpensive hybrid genome assembly at US $150 per genome while assembling genomes from as little as 35 ng of genomic DNA from a single fly. We present 183 new genome assemblies for 179 species as a resource for drosophilid systematics, phylogenetics, and comparative genomics. Of these genomes, 62 are from pooled lab strains and 121 from single adult flies. Despite the sample limitations of working with small insects, most single-fly diploid assemblies are comparable in contiguity (>1 Mb contig N50), completeness (>98% complete dipteran BUSCOs), and accuracy (>QV40 genome-wide with ONT R10.4.1) to assemblies from inbred lines. We present a well-resolved multi-locus phylogeny for 360 drosophilid and 4 outgroup species encompassing all publicly available (as of August 2023) genomes for this group. Finally, we present a Progressive Cactus whole-genome, reference-free alignment built from a subset of 298 suitably high-quality drosophilid genomes. The new assemblies and alignment, along with updated laboratory protocols and computational pipelines, are released as an open resource and as a tool for studying evolution at the scale of an entire insect family.

Published
2024

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