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1. Consensus-based Distributed Optimization for Multi-agent Systems over Multiplex Networks

Author

Rodríguez-Camargo, C. D., Urquijo-Rodríguez, A. F., and Mojica-Nava, E. A.

Subjects
Mathematics - Optimization and Control, Condensed Matter - Statistical Mechanics, Physics - Physics and Society
Abstract

Multilayer networks refer to systems composed of several interacting networks. This approach provides a generalized framework for exploring real-world and engineering systems in more depth and with greater accuracy than the traditional single-layer network scheme. Despite the wide set of results in distributed optimization in single-layer networks, there is a lack of developments in multilayer systems. In this paper, we propose two algorithms for distributed optimization problems using the supra-Laplacian matrix of a multiplex network and its diffusion dynamics. The algorithms are a distributed primal-dual saddle-point algorithm and a distributed gradient descent algorithm. We establish a set of saddle-point equations based on the relation between consensus and diffusion dynamics via the graph Laplacian and impose an analogous restriction to the traditional Laplacian in our multiplex distributed optimization problem to obtain the multiplex supra-Laplacian matrix. We extend the distributed gradient descent algorithm for multiplex networks using this supra-Laplacian matrix. We propose several theoretical results to analyze the convergence of both algorithms, demonstrating that they converge to the unique optimizer. We validate the proposed algorithms using numerical examples. We also explore the existence of a phase transition in the consensus time due to the interlayer diffusion constant in the numerical examples. Finally, a coordinated dispatch for interdependent infrastructure networks (energy-gas) is presented to illustrate the application of the proposed framework to real engineering problems., Comment: 10 pages, 11 figures

Published
2023

2. Accelerating off-lattice kinetic Monte Carlo simulations to predict hydrogen vacancy-cluster interactions in $\alpha$-Fe

Author

Williams, C. J. and Galindo-Nava, E. I.

Subjects
Condensed Matter - Materials Science, Physics - Computational Physics
Abstract

We present an enhanced off-lattice kinetic Monte Carlo (OLKMC) model, based on a new method for tolerant classification of atomistic local-environments that is invariant under Euclidean-transformations and permutations of atoms. Our method ensures that environments within a norm-based tolerance are classified as equivalent. During OLKMC simulations, our method guarantees to elide the maximum number of redundant saddle-point searches in symmetrically equivalent local-environments. Hence, we are able to study the trapping/detrapping of hydrogen from up to five-vacancy clusters and simultaneously the effect hydrogen has on the diffusivity of these clusters. These processes occur at vastly different timescales at room temperature in body-centred cubic iron. We are able to predict the diffusion pathways of clusters/complexes without a priori assumptions of their mechanisms, not only reproducing previously reported mechanisms but also discovering new ones for larger complexes. We detail the hydrogen-induced changes in the clusters' diffusion mechanisms and find evidence that, in contrast to mono-vacancies, the introduction of hydrogen to larger clusters can increase their diffusivity. We compare the effective hydrogen diffusivity to Oriani's classical theory of trapping, finding general agreement and some evidence that hydrogen may not always be in equilibrium with traps, when the traps are mobile. Finally, we are able to compute the trapping atmosphere of meta-stable states surrounding non-point traps, opening new avenues to better understand and predict hydrogen embrittlement in complex alloys.

Published
2022
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3. Optimal probe length varies for targets with high sequence variation: implications for probe library design for resequencing highly variable genes.

Author

Niall J Haslam, Nava E Whiteford, Gerald Weber, Adam Prügel-Bennett, Jonathan W Essex, and Cameron Neylon

Subjects
Medicine, Science
Abstract

BACKGROUND: Sequencing by hybridisation is an effective method for obtaining large amounts of DNA sequence information at low cost. The efficiency of SBH depends on the design of the probe library to provide the maximum information for minimum cost. Long probes provide a higher probability of non-repeated sequences but lead to an increase in the number of probes required whereas short probes may not provide unique sequence information due to repeated sequences. We have investigated the effect of probe length, use of reference sequences, and thermal filtering on the design of probe libraries for several highly variable target DNA sequences. RESULTS: We designed overlapping probe libraries for a range of highly variable drug target genes based on known sequence information and develop a formal terminology to describe probe library design. We find that for some targets these libraries can provide good coverage of a previously unseen target whereas for others the coverage is less than 30%. The optimal probe length varies from as short at 12 nt to as large as 19 nt and depends on the sequence, its variability, and the stringency of thermal filtering. It cannot be determined from inspection of an example gene sequence. CONCLUSIONS: Optimal probe length and the optimal number of reference sequences used to design a probe library are highly target specific for highly variable sequencing targets. The optimum design cannot be determined simply by inspection of input sequences or of alignments but only by detailed analysis of the each specific target. For highly variable sequences, shorter probes can in some cases provide better information than longer probes. Probe library design would benefit from a general purpose tool for analysing these issues. The formal terminology developed here and the analysis approaches it is used to describe will contribute to the development of such tools.

Published
2008
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5. The Sherrington-Kirkpatrick model for spin glasses: A new approach for the solution

Author

Rodríguez-Camargo, C. D., Mojica-Nava, E. A., and Svaiter, N. F.

Subjects
Condensed Matter - Disordered Systems and Neural Networks, Condensed Matter - Statistical Mechanics
Abstract

We discuss the Sherrington-Kirkpatrick mean-field version of a spin glass within the distributional zeta-function method (DZFM). In the DZFM, since the dominant contribution to the average free energy is written as a series of moments of the partition function of the model, the spin-glass multivalley structure is obtained. Also, an exact expression for the saddle points corresponding to each valley and a global critical temperature showing the existence of many stables or at least metastables equilibrium states is presented. Near the critical point we obtain analytical expressions of the order parameters that are in agreement with phenomenological results. We evaluate the linear and nonlinear susceptibility and we find the expected singular behavior at the spin-glass critical temperature. Furthermore, we obtain a positive definite expression for the entropy and we show that ground-state entropy tends to zero as the temperature goes to zero. We show that our solution is stable for each term in the expansion. Finally, we analyze the behavior of the overlap distribution, where we find a general expression for each moment of the partition function., Comment: 14 pages, 8 figures

Published
2021
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6. Voltage Regulation for Microgrids Based on a Data-Driven Predictor

Author

Toro, Vladimir, Rodriguez-Gil, J. A., Mojica-Nava, E., Filipe, Joaquim, Editorial Board Member, Ghosh, Ashish, Editorial Board Member, Prates, Raquel Oliveira, Editorial Board Member, Zhou, Lizhu, Editorial Board Member, Figueroa-García, Juan Carlos, editor, Hernández, German, editor, Villa Ramirez, Jose Luis, editor, and Gaona García, Elvis Eduardo, editor

Published
2023
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8. Systemic Performance Measures from Distributional Zeta-Function

Author

Rodríguez-Camargo, C. D., Urquijo-Rodríguez, A. F., and Mojica-Nava, E. A.

Subjects
Condensed Matter - Statistical Mechanics, Condensed Matter - Disordered Systems and Neural Networks
Abstract

We propose the use of the Distributional Zeta-Function (DZF) for constructing a new set of Systemic Performance Measures (SPM). SPM have been proposed to investigate network synthesis problems such as the growing of linear consensus networks. The adoption of the DZF has shown interesting physical consequences that in the usual replica method are still unclarified, i.e., the connection between the spontaneous symmetry breaking mechanism and the structure of the replica space in the disordered model. We relate topology of the network and the partition function present in the DZF by using the spectral and the Hamiltonian structure of the system. The studied objects are the generalized partition funcion, the DZF, the Expected value of the replica partition function, and the quenched free energy of a field network. We show that with these objects we need few operations to increase the percentage of performance enhancement of a network. Furthermore, we evalue the location of the optimal added links for each new SPM and calculate the performance improvement of the new network for each new SPM via the spectral zeta function, $\mathcal{H}_{2}$-norm, and the communicability between nodes. We present the advantages of this new set of SPM in the network synthesis and we propose other methods for using the DZF to explore some issues such as disorder, critical phenomena, finite-temperature, and finite-size effects on networks. Relevance of the results are discussed., Comment: 19 pages, 14 figures

Published
2020

9. Effect of bed temperature on solute segregation and mechanical properties in Ti-6Al-4V produced by selective laser melting

Author

Pedrazzini, S., Pek, M. E., Ackerman, A. K., Cheng, Q., Ali, H., Ghadbeigi, H., Mumtaz, K., Dessolier, T., Britton, T. B., Bajaj, P., Jägle, E., Gault, B., London, A. J., and Galindo-Nava, E.

Subjects
Condensed Matter - Materials Science
Abstract

Advanced characterisation techniques were used on LPBF Ti-6Al-4V samples produced on a heated base plate. When the substrate temperature is 100{\deg}C the elongation is 6\%, which increases and peaks at 10\% at 570{\deg}C, then sharply decreases to zero ductility at 770{\deg}C. At 100{\deg}C, a heavily strained and twinned microstructure, primarily composed of {\alpha}+{\alpha}', was observed and it was comparable to asbuilt microstructures obtained by conventional LPBF methods. At higher temperatures, twins are no longer present and instead nano-scale {\beta} precipitates are observed within {\alpha}' and {\alpha}, as well as dislocation networks (570{\deg}C) and tangles (770{\deg}C). Solute segregation at crystal defects was observed in all pre-heating conditions. Al and V segregation at microtwins was observed in the 100{\deg}C sample, reporting for the first time `selective' and mutually exclusive Al- and V-rich regions forming in adjacent twins. V segregation at dislocations was observed in the 570{\deg}C and 770{\deg}C samples, consistent with the higher preheating temperatures. High O contents were measured in all samples but with apparent opposing effects. At 100{\deg}C and 570{\deg}C was estimated to be below the critical threshold for O embrittlement and locally aids in maintaining a strength high by solid solution strengthening, whereas at 770{\deg}C it was above the threshold, therefore failing in a brittle fashion. Based on these observations, the initial increase in ductility from 100{\deg}C to 570{\deg}C is attributed to a reduction in microtwins and the dislocation networks acting as `soft barriers' for slip within a coarser microstructure. The lack of ductility at 770{\deg}C was attributed to local solute redistribution causing dislocation pinning and an increase of O content in this sample.

Published
2020

12. Mapping the emotional homunculus with fMRI

Author

Giraud, M, Zapparoli, L, Basso, G, Petilli, M, Paulesu, E, Nava, E, Giraud M., Zapparoli L., Basso G., Petilli M., Paulesu E., Nava E., Giraud, M, Zapparoli, L, Basso, G, Petilli, M, Paulesu, E, Nava, E, Giraud M., Zapparoli L., Basso G., Petilli M., Paulesu E., and Nava E.

Abstract

Emotions are commonly associated with bodily sensations, e.g., boiling with anger when overwhelmed with rage. Studies have shown that emotions are related to specific body parts, suggesting that somatotopically organized cortical regions that commonly respond to somatosensory and motor experiences might be involved in the generation of emotions. We used functional magnetic resonance imaging to investigate whether the subjective feelings of emotion are accompanied by the activation of somatotopically defined sensorimotor brain regions, thus aiming to reconstruct an “emotional homunculus.” By defining the convergence of the brain activation patterns evoked by self-generated emotions during scanning onto a sensorimotor map created on participants’ tactile and motor brain activity, we showed that all the evoked emotions activated parts of this sensorimotor map, yet with considerable overlap among different emotions. Although we could not find a highly specific segmentation of discrete emotions over sensorimotor regions, our results support an embodied experience of emotions.

Published
2024

13. The emergence of the multisensory brain: From the womb to the first steps

Author

Nava, E, Giraud, M, Bolognini, N, Nava E., Giraud M., Bolognini N., Nava, E, Giraud, M, Bolognini, N, Nava E., Giraud M., and Bolognini N.

Abstract

The becoming of the human being is a multisensory process that starts in the womb. By integrating spontaneous neuronal activity with inputs from the external world, the developing brain learns to make sense of itself through multiple sensory experiences. Over the past ten years, advances in neuroimaging and electrophysiological techniques have allowed the exploration of the neural correlates of multisensory processing in the newborn and infant brain, thus adding an important piece of information to behavioral evidence of early sensitivity to multisensory events. Here, we review recent behavioral and neuroimaging findings to document the origins and early development of multisensory processing, particularly showing that the human brain appears naturally tuned to multisensory events at birth, which requires multisensory experience to fully mature. We conclude the review by highlighting the potential uses and benefits of multisensory interventions in promoting healthy development by discussing emerging studies in preterm infants.

Published
2024

14. Intuitive mapping between nonsymbolic quantity and observed action across development

Author

de Hevia, M, Nava, E, de Hevia M. D., Nava E., de Hevia, M, Nava, E, de Hevia M. D., and Nava E.

Abstract

Adults' concurrent processing of numerical and action information yields bidirectional interference effects consistent with a cognitive link between these two systems of representation. This link is in place early in life: infants create expectations of congruency across numerical and action-related stimuli (i.e., a small [large] hand aperture associated with a smaller [larger] numerosity). Although these studies point to a developmental continuity of this mapping, little is known about the later development and thus how experience shapes such relationships. We explored how number-action intuitions develop across early and later childhood using the same methodology as in adults. We asked 3-, 6-, and 8-year-old children, as well as adults, to relate the magnitude of an observed action (a static hand shape, open vs. closed, in Experiment 1; a dynamic hand movement, opening vs. closing, in Experiment 2) to either a small or large nonsymbolic quantity (numerosity in Experiment 1 and numerosity and/or object size in Experiment 2). From 6 years of age, children started performing in a systematic congruent way in some conditions, but only 8-year-olds (added in Experiment 2) and adults performed reliably above chance in this task. We provide initial evidence that early intuitions guiding infants' mapping between magnitude across nonsymbolic number and observed action are used in an explicit way only from late childhood, with a mapping between action and size possibly being the most intuitive. An initial coarse mapping between number and action is likely modulated with extensive experience with grasping and related actions directed to both arrays and individual objects.

Published
2024

15. Methods for the Assessment of Multisensory Processing: Behavioral and Neuropsychological Approaches

Author

Valeriani, M, de Tommaso, M, Manzone, D, Nava, E, Bolognini, N, Manzone D. M., Nava E., Bolognini N., Valeriani, M, de Tommaso, M, Manzone, D, Nava, E, Bolognini, N, Manzone D. M., Nava E., and Bolognini N.

Abstract

Since birth, we learn about the perceptual and social world through our senses. Learning to appropriately bind multisensory information is key to effectively interact with our surroundings. In this chapter, we will review the behavioral, computational, and neurophysiological methods used to assess multisensory processing in healthy adult individuals. In the first part, we will provide an overview of fundamental principles governing the activity of multisensory neurons in the animal brain since these principles still provide an influential framework for the investigation of multisensory processing in humans too. In the second part, we will present a series of behavioral paradigms that have been adopted in the past 20 years to assess multisensory processing, particularly focusing on the difference between paradigms assessing multisensory integration and paradigms assessing crossmodal interactions, in which stimulation of one sensory system affects the experience in a different sense, typically leading to illusory percepts. The last part will provide a critical overview of electrophysiological and neuroimaging approaches to measure multisensory interactions in the human brain.

Published
2024

17. On the effect of Ti on Oxidation Behaviour of a Polycrystalline Nickel-based Superalloy

Author

Pedrazzini, S., Rowlands, B. S., Turk, A., Parr, I. M. D., Hardy, M. C., Bagot, P. A. J., Moody, M. P, Galindo-Nava, E., and Stone, H. J.

Subjects
Condensed Matter - Materials Science
Abstract

Titanium is commonly added to nickel superalloys but has a well-documented detrimental effect on oxidation resistance. The present work constitutes the first atomistic-scale quantitative measurements of grain boundary and bulk compositions in the oxide scale of a current generation polycrystalline nickel superalloy performed through atom probe tomography. Titanium was found to be particularly detrimental to oxide scale growth through grain boundary diffusion.

Published
2018

19. Empowering the Next Generation: An innovative “Kids Save Lives” blended learning program for schoolchildren training

Author

Semeraro, F., Imbriaco, G., Del Giudice, D., Antognoli, M., Celin, D., Cuttitta, M., Lo Guasto, V., Giulini, Paolo Guglielmo, Gnudi, T., Monesi, A., Nava, E., Tucci, R., Carenzio, Alessandra, Lo Jacono, S., Gordini, G., Gamberini, L., Coniglio, C., Baldazzi, M., Landini, Chiara, Guarnera, M., Masina, J., Ghedini, G., Potri, L., Tortolani, D., G. Giulini, A. Carenzio (ORCID:0000-0002-2212-6400), C. Landini, Semeraro, F., Imbriaco, G., Del Giudice, D., Antognoli, M., Celin, D., Cuttitta, M., Lo Guasto, V., Giulini, Paolo Guglielmo, Gnudi, T., Monesi, A., Nava, E., Tucci, R., Carenzio, Alessandra, Lo Jacono, S., Gordini, G., Gamberini, L., Coniglio, C., Baldazzi, M., Landini, Chiara, Guarnera, M., Masina, J., Ghedini, G., Potri, L., Tortolani, D., G. Giulini, A. Carenzio (ORCID:0000-0002-2212-6400), and C. Landini

Abstract

Guidelines recommend teaching resuscitation from school age; however, little is known about the best methods to provide it. We devised a blended learning program for primary and secondary students (Kids Save Lives – KSL) consisting of brief lectures, practical training with mannequins, and virtual reality. We aimed to evaluate its impact on students’ attitudes towards intervening during cardiac arrest and their knowledge about basic life support.

Published
2024

20. On the additive manufacturing, post-tensioning and testing of bi-material tensegrity structures

Author

Amendola, A., Hernandez-Nava, E., Goodall, R., Todd, I., Skelton, R. E., and Fraternali, F.

Subjects
Condensed Matter - Materials Science
Abstract

An investigation on the additive manufacturing and the experimental testing of 3D models of tensegrity prisms and columns is presented. An electron beam melting facility (Arcam EBM S12) is employed to 3D print structures composed of tensegrity prisms endowed with rigid bases and temporary supports, which are made out of the titanium alloy Ti6Al4V. The temporary supports are removed after the additive manufacturing phase, when Spectra cross-strings are added to the 3D printed models, and a suitable state of internal prestress is applied to the structure. The experimental part of the study shows that the examined structures feature sitffening-type elastic response under large or moderately large axial strains induced by compressive loading. Such a geometrically nonlinear behavior confirms previous theoretical results available in the literature, and paves the way to the use of tensegrity prisms and columns as innovative mechanical metamaterials and smart devices.

Published
2015

25. Age-dependent changes in intuitive and deliberative cooperation

Author

Nava, F, Margoni, F, Herath, N, Nava, E, Nava F., Margoni F., Herath N., Nava E., Nava, F, Margoni, F, Herath, N, Nava, E, Nava F., Margoni F., Herath N., and Nava E.

Abstract

Cooperation is one of the most advantageous strategies to have evolved in small- and large-scale human societies, often considered essential to their success or survival. We investigated how cooperation and the mechanisms influencing it change across the lifespan, by assessing cooperative choices from adolescence to old age (12–79 years, N = 382) forcing participants to decide either intuitively or deliberatively through the use of randomised time constraints. As determinants of these choices, we considered participants’ level of altruism, their reciprocity expectations, their optimism, their desire to be socially accepted, and their attitude toward risk. We found that intuitive decision-making favours cooperation, but only from age 20 when a shift occurs: whereas in young adults, intuition favours cooperation, in adolescents it is reflection that favours cooperation. Participants’ decisions were shown to be rooted in their expectations about other people’s cooperative behaviour and influenced by individuals’ level of optimism about their own future, revealing that the journey to the cooperative humans we become is shaped by reciprocity expectations and individual predispositions.

Published
2023

26. Embodied language of emotions: Predicting human intuitions with linguistic distributions in blind and sighted individuals

Author

Giraud, M, Marelli, M, Nava, E, Giraud M., Marelli M., Nava E., Giraud, M, Marelli, M, Nava, E, Giraud M., Marelli M., and Nava E.

Abstract

Recent constructionist theories have suggested that language and sensory experience play a crucial role not only in how individuals categorise emotions but also in how they experience and shape them, helping to acquire abstract concepts that are used to make sense of bodily perceptions associated with specific emotions. Here, we aimed to investigate the role of sensory experience in conceptualising bodily felt emotions by asking 126 Italian blind participants to freely recall in which part of the body they commonly feel specific emotions (N = 15). Participants varied concerning visual experience in terms of blindness onset (i.e., congenital vs late) and degree of visual experience (i.e., total vs partial sensory loss). Using an Italian semantic model to estimate to what extent discrete emotions are associated with body parts in language experience, we found that all participants' reports correlated with the model predictions. Interestingly, blind – and especially congenitally blind - participants’ responses were more strongly correlated with the model, suggesting that language might be one of the possible compensative mechanisms for the lack of visual feedback in constructing bodily felt emotions. Our findings present theoretical implications for the study of emotions, as well as potential real-world applications for blind individuals, by revealing, on the one hand, that vision plays an essential role in the construction of felt emotions and the way we talk about our related bodily (emotional) experiences. On the other hand, evidence that blind individuals rely more strongly on linguistic cues suggests that vision is a strong cue to acquire emotional information from the surrounding world, influencing how we experience emotions. While our findings do not suggest that blind individuals experience emotions in an atypical and dysfunctional way, they nonetheless support the view that promoting the use of non-visual emotional signs and body language since early on might

Published
2023

36. Do Children Selectively Trust Leaders and Prosocial Agents in an Economic Exchange?

Author

Margoni, F, Nava, E, Surian, L, Margoni F., Nava E., Surian L., Margoni, F, Nava, E, Surian, L, Margoni F., Nava E., and Surian L.

Abstract

Most cooperative interactions involve interpersonal trust and the expectation of mutual reciprocation. Thus, understanding when and how humans acquire interpersonal trust can help unveil the origins and development of children’s cooperative behavior. Here, we investigated whether prior sociomoral information about trading partners modulates the choice of preschool (4–5 years) and school-age children (7–8 years) to share their own goods in a child-friendly version of the trust game. In this game, the trustee partner can repay the child’s initial investment or keep everything and betray the trustor. In two studies, we addressed whether trust is modulated by trustees exhibiting prosocial versus antisocial behaviors (Study 1, “helper and hinderer”), or respect-based versus fear-based power (Study 2, “leader and bully”). Preschoolers trusted the leader reliably more than the bully, and the hinderer reliably less than a neutral agent. The tendency to trust the helper more than the hinderer increased with age as a result of the increased propensity to trust the prosocial agent. Overall, these findings indicate that, by age 5, children understand complex cooperative exchanges and start relying on sociomoral information when deciding whom to trust.

Published
2022

39. Neural signatures to prosocial and antisocial interactions in young infants

Author

Licht, V, Addabbo, M, Nava, E, Turati, C, Licht, Victoria, Addabbo, Margaret, Nava, Elena, Turati, Chiara, Licht, V, Addabbo, M, Nava, E, Turati, C, Licht, Victoria, Addabbo, Margaret, Nava, Elena, and Turati, Chiara

Abstract

Preverbal infants appear to be more attracted by prosocial characters and events, as typically assessed using preferential looking times and manual choice. However, infants’ neural correlates of observed prosocial and antisocial interactions are still scarce. Here, we familiarized 5-month-old (N = 24) infants with a prosocial and antisocial scene (i.e., a character either helping or hindering) and infants’ Event-Related Potentials (ERP) were recorded in response to the presentation of short video clips of the prosocial and antisocial interaction. On a neural level, results revealed that infants could discriminate between helping and hindering events at an early stage of processing, as shown by a larger N290 response to the former compared to the latter. Further, while the Nc–typically indexing attentional processes–was larger for antisocial over prosocial events, the LPP, indexing cognitive evaluation of the stimuli, was larger for prosocial over antisocial actions. Finally, infants’ higher scores on the effortful control temperamental subscale were related to infants’ increased N290 neural sensitivity to antisocial scenes. Together, these findings provide new evidence of the time course of infants’ ERP responses during the observation of helping and hindering interactions, which involves both attentional and socially relevant processes.

Published
2023

40. Touch Me or Touch Me Not: Emotion Regulation by Affective Touch in Human Adults

Author

Silvestri, V, Giraud, M, Macchi Cassia, V, Nava, E, Silvestri, V, Giraud, M, Macchi Cassia, V, and Nava, E

Abstract

In mammals, including humans, affective touch (AT) supports the establishment and maintenance of social connections and mitigates the effects of social conflict and ostracism. AT is used to describe slowly moving, low-forced mechanical stimulation that is frequently perceived as pleasant. In humans, AT has been addressed particularly for its role in promoting bonding and emotional regulation during early development; however, more recent studies have suggested that AT also preserves physical and emotional well-being in adulthood. Here, we investigated whether AT can buffer adults’ experience of negative emotions as reflected in their behavioral and physiological responses to emotionally arousing stimuli. Participants were stimulated on their forearms using AT or tapping (T) while they viewed a series of emotionally arousing and neutral images, and we measured their skin conductance response and their explicit rating of the images’ unpleasantness. We found that AT, but not T, reduced the arousal and perceived unpleasantness of the emotional stimuli but not the neutral ones, revealing the soothing role of AT in emotional contexts. The second aim of the study was to explore the possibility that AT might benefit some individuals more than others, according to their individual differences. To this aim, we assessed individuals’ empathy and sensory processing sensitivity, as well as their perception of AT itself. Results revealed that while empathy did not predict changes in emotional processing irrespective of tactile stimulation, individuals with higher sensitivity reported AT as less pleasant.We discuss the possible factors mediating the observed interindividual variability in AT perception.

Published
2023

46. Working Group on Nephrops Surveys (WGNEPS; outputs from 2022 meeting)

Author

Aguzzi J., Aristegui-Ezquibela M., Burgos C., Chatzievangelou D., Doyle J., Fallon N., Fifas S., González-Herraiz I., Jonsson P., Lundy M., Martinelli M., Medve?ek D., Naseer A., Nava E., Nawri N., Jónasson J. P., Pereira B., Pieri G., Silva C., Tibone M., Valeiras J., Vila Y., Weetman A., and Wieland K.

Subjects
Fisheries and aquaculture, Technologies and data, Adriatic Sea (ICES adjacent region), UWTV, Nephrops, Ecosystem observation, processes and dynamics, Survey, All ICES Ecoregions
Abstract

The Working Group on Nephrops Surveys (WGNEPS) is the international coordination group for Nephrops underwater television and trawl surveys within ICES. This report summarizes the national contributions on the results of the surveys conducted in 2022 together with time series covering all survey years, problems encountered, data quality checks and technological improvements as well as the planning for survey activities for 2023. In total, 21 surveys covering 26 functional units (FU’s) in the ICES area and 1 geographical subarea (GSA) in the Adriatic Sea were discussed and further improvements in respect to survey design and data analysis standardization and the use of most recent technology were reviewed. The first exploratory UWTV survey on the FU 25 Nephrops grounds was also presented to the group. The results of the evaluation of reference sets for FU3&4 Skagerrak/Kattegat were accepted following the process set down by the 2018 workshop (WKNEPS). An alternative method estimate Nephrops abundance was shown to the group using the recently published R package sdmTMB. The group agreed to hold a workshop in 2025 to address burrow size estimations to update correction factors and terms of reference for this to be agreed at next meeting. Automatic burrow detection based on deep learning methods continues to show promising results where datasets from multiple institutes were used. Plans are being progressed for an international Nephrops UWTV database to be established at the ICES data centre with a sub-group.

Published
2023
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