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1,716 results on '"Sartori, M."'

1. Distribution of the number of peaks within a long gamma-ray burst: The full Fermi/GBM catalogue

Author

Maccary, R., Maistrello, M., Guidorzi, C., Sartori, M., Amati, L., Bazzanini, L., Bulla, M., Camisasca, A. E., Ferro, L., Frontera, F., and Tsvetkova, A.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

Context. The dissipation process responsible for the long gamma-ray burst (GRB) prompt emission and the kind of dynamics that drives the release of energy as a function of time are still key open issues. We recently found that the distribution of the number of peaks per GRB is described by a mixture of two exponentials, suggesting the existence of two behaviours that turn up as peak-rich and peak-poor time profiles. Aims. Our aims are to study the distribution of the number of peaks per GRB of the entire catalogue of about 3000 GRBs observed by the Fermi Gamma-ray Burst Monitor (GBM) and to make a comparison with previous results obtained from other catalogues. Methods. We identified GRB peaks using the MEPSA code and modelled the resulting distribution following the same procedure that was adopted in the previous analogous investigation. Results. We confirm that only a mixture of two exponentials can model the distribution satisfactorily, with model parameters that fully agree with those found from previous analyses. In particular, we confirm that (21 +- 4)% of the observed GRBs are peak-rich (8 +- 1 peaks per GRB on average), while the remaining 80% are peak-poor (2.12 +- 0.10 peaks per GRB on average). Conclusions. We confirm the existence of two different components, peak-poor and peak-rich GRBs, that make up the observed GRB populations. Together with previous analogous results from other GRB catalogues, these results provide compelling evidence that GRB prompt emission is governed by two distinct regimes., Comment: 6 pages, 3 figures, accepted as a letter by A&A

Published
2024

2. Distribution of number of peaks within a long gamma-ray burst

Author

Guidorzi, C., Sartori, M., Maccary, R., Tsvetkova, A., Amati, L., Bazzanini, L., Bulla, M., Camisasca, A. E., Ferro, L., Frontera, F., Li, C. K., Xiong, S. L., and Zhang, S. N.

Subjects
Astrophysics - High Energy Astrophysical Phenomena
Abstract

The variety of long duration gamma-ray burst (LGRB) light curves (LCs) encode a wealth of information on how LGRB engines release energy following the collapse of the progenitor star. Attempts to characterise GRB LCs focused on a number of properties, such as the minimum variability timescale, power density spectra (both ensemble average and individual), or with different definitions of variability. In parallel, a characterisation as a stochastic process was pursued by studying the distributions of waiting times, peak flux, fluence of individual peaks within GRB time profiles. Yet, the question remains as to whether the diversity of profiles can be described in terms of a common stochastic process. Here we address this issue by studying for the first time the distribution of the number of peaks in a GRB profile. We used four different GRB catalogues: CGRO/BATSE, Swift/BAT, BeppoSAX/GRBM, and Insight-HXMT. The statistically significant peaks were identified by means of well tested algorithm MEPSA and further selected by applying a set of thresholds on signal-to-noise ratio. We then extracted the corresponding distributions of number of peaks per GRB. Among the different models considered (power-law, simple or stretched exponential) only a mixture of two exponentials models all the observed distributions, suggesting the existence of two distinct behaviours: (i) an average number of 2.1+-0.1 peaks per GRB ("peak poor") and accounting for about 80% of the observed population of GRBs; (ii) an average number of 8.3+-1.0 peaks per GRB ("peak rich") and accounting for the remaining 20% of the observed population. We associate the class of peak-rich GRBs with the presence of sub-second variability, which seems to be absent among peak-poor GRBs. The two classes could result from two different regimes through which GRB engines release energy or through which energy is dissipated into gamma-rays., Comment: 7 pages, 5 figures, accepted by A&A

Published
2024
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3. The S-PLUS Transient Extension Program: Imaging Pipeline, Transient Identification, and Survey Optimization for Multi-Messenger Astronomy

Author

Santos, A., Kilpatrick, C. D., Bom, C. R., Darc, P., Herpich, F. R., Lacerda, E. A. D., Sartori, M. J., Alvarez-Candal, A., de Oliveira, C. Mendes, Kanaan, A., Ribeiro, T., and Schoenell, W.

Subjects
Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena
Abstract

We present the S-PLUS Transient Extension Program (STEP): a supernova and fast transient survey conducted in the southern hemisphere using data from the Southern Photometric Local Universe Survey (S-PLUS) Main Survey and the T80-South telescope. Transient astrophysical phenomena have a range of interest that goes through different fields of astrophysics and cosmology. With the detection of an electromagnetic counterpart to the gravitational wave (GW) event GW170817 from a binary neutron stars merger, new techniques and resources to study fast astrophysical transients in the multi-messenger context have increased. In this paper, we present the STEP overview, the SN follow-up data obtained, data reduction, analysis of new transients and deep learning algorithms to optimize transient candidate selection. Additionally, we present prospects and optimized strategy for the search of Gravitational Wave counterparts in the current LIGO/Virgo/Kagra observational run (O4) in the context of T80-South telescope., Comment: Submitted to MNRAS

Published
2023

6. The Role of an Advanced Quality System for the Control of Performance of Lead Rubber Bearings: The Case of Puente Industrial De Biobio

Author

Sartori, M., Galbiati, C., Bresaola, G., Barone, S., Zivanovic, I., Alende, I., di Prisco, Marco, Series Editor, Chen, Sheng-Hong, Series Editor, Vayas, Ioannis, Series Editor, Kumar Shukla, Sanjay, Series Editor, Sharma, Anuj, Series Editor, Kumar, Nagesh, Series Editor, Wang, Chien Ming, Series Editor, and Cimellaro, Gian Paolo, editor

Published
2023
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10. Invertebrates part 2

Author

Elouard, J.-M., primary, Gattolliat, J.-L., additional, Sartori, M., additional, Dijkstra, K.-D. B., additional, Eggleton, P., additional, Durden, L. A., additional, Dietrich, C. H, additional, Dmitriev, D. A., additional, Krishnankutty, S. M., additional, Takiya, D. M, additional, Weirauch, C., additional, Świerczewski, D., additional, Stroiński, A., additional, Constant, J., additional, Gnezdilov, V. M., additional, Hugel, S., additional, Moravec, J., additional, Bergsten, J., additional, Manuel, M., additional, Ranarilalatiana, T., additional, Ramahandrison, A. T., additional, Hájek, J., additional, and Gustafson, G. T., additional

Published
2022
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17. The Incorporation of the Light Green Clay in the Textile Polyamide Residues

Author

Sartori, M. N., Castro, D. P., Valenzuela-Diaz, F. R., Silva, L. G. A., Li, Jian, editor, Zhang, Mingming, editor, Li, Bowen, editor, Monteiro, Sergio Neves, editor, Ikhmayies, Shadia, editor, Kalay, Yunus Eren, editor, Hwang, Jiann-Yang, editor, Escobedo-Diaz, Juan P., editor, Carpenter, John S., editor, Brown, Andrew D., editor, Soman, Rajiv, editor, and Moser, Alex, editor

Published
2021
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20. Distribution of the number of peaks within a long gamma-ray burst

Author

Guidorzi, C., primary, Sartori, M., additional, Maccary, R., additional, Tsvetkova, A., additional, Amati, L., additional, Bazzanini, L., additional, Bulla, M., additional, Camisasca, A. E., additional, Ferro, L., additional, Frontera, F., additional, Li, C. K., additional, Xiong, S. L., additional, and Zhang, S. N., additional

Published
2024
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25. The S-PLUS Transient Extension Program: imaging pipeline, transient identification, and survey optimization for multimessenger astronomy

Author

Santos, A, primary, Kilpatrick, C D, additional, Bom, C R, additional, Darc, P, additional, Herpich, F R, additional, Lacerda, E A D, additional, Sartori, M J, additional, Alvarez-Candal, A, additional, Mendes de Oliveira, C, additional, Kanaan, A, additional, Ribeiro, T, additional, and Schoenell, W, additional

Published
2024
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29. Characterization of an integrated High-Voltage capacitance in Silicon-On-Insulator technology

Author

Sartori, M, Arosio, M, Baschirotto, A, Sartori M., Arosio M., Baschirotto A., Sartori, M, Arosio, M, Baschirotto, A, Sartori M., Arosio M., and Baschirotto A.

Abstract

In recent years, the topic of motor inverterization has become increasingly popular as it offers numerous benefits in terms of energy efficiency and control. Central to this topic is the development of gate drivers, which are critical components in controlling the switching of power devices in the inverter-leg. The introduction of high voltage integrated circuits (HVICs) has greatly simplified the inverter system, but has also brought in new challenges in terms of communication between different voltage domains, each isolated from each other up to several hundreds volts. In this paper, the characterization of an integrated high voltage capacitance in silicon-on-insulator (SOI) technology placed between two voltage domains is presented, allowing for a bilateral form of communication at the cost of withstanding high voltage at its terminals. The measurement of this element required a dedicated circuital structure, and the value of the capacitance was measured to be around 127 fF and its breakdown voltage at around 1800 V.

Published
2023

35. Proper Motions of Pre-Main Sequence Stars in Southern Star-Forming Regions

Author

Teixeira, R., Ducourant, C., Sartori, M. J., Camargo, J. I. B., Perié, J. P., Lépine, J. R. D., and Benevides-Soares, P.

Subjects
Astrophysics
Abstract

We present proper motion measurements of pre-main sequence (PMS) stars associated with major star-forming regions of the southern hemisphere (Chamaeleon, Lupus, Upper Scorpius - Ophiuchus, Corona Australis), situated in the galactic longitude range l = 290\degr to l = 360\degr. A list of PMS stars as complete as possible was established based on the Herbig and Bell catalogue and many new catalogues like the PDS survey, the catalogue of Herbig Ae/Be stars by Th\'e et al. (1994), X-rays surveys, etc. The measurements made use of public material (mainly AC2000 and USNO--A2.0 catalogues) as well as scans of SERC-J Schmidt plates with the MAMA measuring machine (Paris) and Valinhos CCD meridian circle observations (Brazil). We derived proper motions for 214 stars, with an accuracy of 5 to 10 mas/yr depending mainly on the difference of epochs between the position sources. The main characteristics of the sample are discussed. We show that systematic motions of groups of stars exist, which are not explained by the reflex solar motion., Comment: 14 pages, LaTeX, 12 PostScript figures, 6 tables; figures 3, 6 and 7 replaced, tables 3 and 4 updated. Accepted for publication in A&A

Published
2000

42. PREDICTIVE CONTROL OF PLANTARFLEXOR MUSCLE-TENDON FORCE DURING SIMULATED HUMAN HOPPING

Author

Nabipour, Mahdi, Sawicki, Gregory, Sartori, M., Neuromechanical Engineering, and TechMed Centre

Subjects
Musculotendon units, Closed-form solutions, Control, Tendon force, Modeling, Closed-form, Muscle force, Model predictive control, prediction, Plantarflexor
Abstract

Assistive devices (e.g., exoskeletons) could be used to steer a user’s musculotendon unit (MTU) loading in vivo. A challenge is to develop a control algorithm that is simple enough to enable fast computation and adaptable enough to handle different gait patterns. Here, we propose a nonlinear model predictive control (NMPC) approach to maintain a predefined threshold tendon force within the plantarflexor muscle-tendon complex during simulated human hopping.

Published
2023
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45. Automated spatial localization of ankle muscle sites and model-based estimation of joint torque post-stroke via a wearable sensorised leg garment

Author

Simonetti, D., Hendriks, M.M.S., Herijgers, J., Cuerdo del Rio, C., Koopman, H.F.J.M., Keijsers, N.L.W., Sartori, M., Simonetti, D., Hendriks, M.M.S., Herijgers, J., Cuerdo del Rio, C., Koopman, H.F.J.M., Keijsers, N.L.W., and Sartori, M.

Abstract

Contains fulltext : 296350.pdf (Publisher’s version ) (Open Access), Assessing a patient's musculoskeletal function during over-ground walking is a primary objective in post-stroke rehabilitation, due to the importance of walking recovery for everyday life. However, the quantitative assessment of musculoskeletal function currently requires lab-constrained equipment, and labor-intensive analyses, which hampers assessment in standard clinical settings. The development of fully wearable systems for the online estimation of muscle-tendon forces and resulting joint torque would aid clinical assessment of motor recovery, it would enhance the detection of neuro-muscular anomalies and it would consequently enable highly personalized treatments. Here, we present a wearable technology that combines (1) a soft garment for the human leg sensorized with 64 flexible and dry electromyography (EMG) electrodes, (2) a generalized and automated algorithm for the localization of leg muscle sites, and (3) an EMG-driven musculoskeletal modeling framework for the estimation of ankle dorsi-plantar flexion torques. Our results showed that the automated clustering algorithm could detect muscle locations in both healthy and post-stroke individuals. The estimated muscle-specific EMG envelopes could be used to drive forward person-specific musculoskeletal models and estimate resulting joint torques accurately across all healthy and post-stroke individuals and across different walking speeds (R2 > 0.82 and RMSD < 0.16). The technology we proposed opens new avenues for automated muscle localization and quantitative musculoskeletal function assessment during gait in both healthy and neurologically impaired individuals.

Published
2023

46. Real-time lumbosacral joint loading estimation in exoskeleton-assisted lifting conditions via electromyography-driven musculoskeletal models

Author

Moya-Esteban, A. (author), Durandau, G. (author), van der Kooij, H. (author), Sartori, M. (author), Moya-Esteban, A. (author), Durandau, G. (author), van der Kooij, H. (author), and Sartori, M. (author)

Abstract

Lumbar joint compression forces have been linked to the development of chronic low back pain, which is specially present in occupational environments. Offline methodologies for lumbosacral joint compression force estimation are not commonly integrated in occupational or medical applications due to the highly time-consuming and complex post-processing procedures. Hence, applications such as real-time adjustment of assistive devices (i.e., back-support exoskeletons) for optimal modulation of compression forces remains unfeasible. Here, we present a real-time electromyography (EMG)-driven musculoskeletal model, capable of estimating accurate lumbosacral joint moments and plausible compression forces. Ten participants performed box-lifting tasks (5 and 15 kg) with and without the Laevo Flex back-support exoskeleton using squat and stoop lifting techniques. Lumbosacral kinematics and EMGs from abdominal and thoracolumbar muscles were used to drive, in real-time, subject-specific EMG-driven models, and estimate lumbosacral joint moments and compression forces. Real-time EMG-model derived moments showed high correlations (R2 = 0.76 - 0.83) and estimation errors below 30% with respect to reference inverse dynamic moments. Compared to unassisted lifting conditions, exoskeleton liftings showed mean lumbosacral joint moments and compression forces reductions of 11.9 - 18.7 Nm (6 - 12% of peak moment) and 300 - 450 N (5 - 10%), respectively. Our modelling framework was capable of estimating in real-time, valid lumbosacral joint moments and compression forces in line with in vivo experimental data, as well as detecting the biomechanical effects of a passive back-support exoskeleton. Our presented technology may lead to a new class of bio-protective robots in which personalized assistance profiles are provided based on subject-specific musculoskeletal variables., Support Biomechanical Engineering

Published
2023
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