Thermal anomalies detection before strong earthquakes (<i>M</i> > 6.0) using interquartile, wavelet and Kalman filter methods

Thermal anomaly is known as a significant precursor of strong earthquakes, therefore Land Surface Temperature (LST) time series have been analyzed in this study to locate relevant anomalous variations prior to the Bam (26 December 2003), Zarand (22 February 2005) and Borujerd (31 March 2006) earthquakes. The duration of the three datasets which are comprised of MODIS LST images is 44, 28 and 46 days for the Bam, Zarand and Borujerd earthquakes, respectively. In order to exclude variations of LST from temperature seasonal effects, Air Temperature (AT) data derived from the meteorological stations close to the earthquakes epicenters have been taken into account. The detection of thermal anomalies has been assessed using interquartile, wavelet transform and Kalman filter methods, each presenting its own independent property in anomaly detection. The interquartile method has been used to construct the higher and lower bounds in LST data to detect disturbed states outside the bounds which might be associated with impending earthquakes. The wavelet transform method has been used to locate local maxima within each time series of LST data for identifying earthquake anomalies by a predefined threshold. Also, the prediction property of the Kalman filter has been used in the detection process of prominent LST anomalies. The results concerning the methodology indicate that the interquartile method is capable of detecting the highest intensity anomaly values, the wavelet transform is sensitive to sudden changes, and the Kalman filter method significantly detects the highest unpredictable variations of LST. The three methods detected anomalous occurrences during 1 to 20 days prior to the earthquakes showing close agreement in results found between the different applied methods on LST data in the detection of pre-seismic anomalies. The proposed method for anomaly detection was also applied on regions irrelevant to earthquakes for which no anomaly was detected, indicating that the anomalous behaviors can be related to impending earthquakes. The proposed method receives its credibility from the overall capabilities of the three integrated methods

Designing pre-bariatric surgery education: The value of Patients' experiences

Within the field of bariatric surgery, preoperative education to empower patients to adapt to the postoperative lifestyle and get the best outcomes in terms of health and quality of life is not standardised across the UK and is based mainly on clinical experience. In this study, the authors used qualitative research and a structured framework to design a preoperative psychosocial education course for people undergoing surgery. Qualitative interviews were performed to determine issues that previous surgery recipients felt were missing from their preoperative education, and the current educational course was redesigned to include this content. The study provides a template from which other Trusts could evaluate and improve their education

Estimation of atmospheric temperature and humidity profiles from MODIS data and radiosond data using artificial neural network

The aim of this study is to test the quality of the neural network for retrieving the temperature and humidity by comparison with the radiosond values and a linear regression method. Remote sensed images give useful information about the atmosphere. In this article, MODIS data is used to retrieve temperature and humidity profiles of the atmosphere. Two methods of linear regression and artificial neural network are used to retrieve the temperature and humidity profiles. A multilayer feed-forward neural network is tested to estimate the desired geophysical profiles. Retrievals are validated by comparison with coincident radiosond profiles

Two Neural Circuits to Point Towards Home Position After Passive Body Displacements

International audienceA challenge in motor control research is to understand the mechanisms underlying the transformation of sensory information into arm motor commands. Here, we investigated these transformation mechanisms for movements whose targets were defined by information issued from body rotations in the dark (i.e., idiothetic information). Immediately after being rotated, participants reproduced the amplitude of their perceived rotation using their arm (Experiment 1). The cortical activation during movement planning was analyzed using electroencephalography and source analyses. Task-related activities were found in regions of interest (ROIs) located in the prefrontal cortex (PFC), dorsal premotor cortex, dorsal region of the anterior cingulate cortex (ACC) and the sensorimotor cortex. Importantly, critical regions for the cognitive encoding of space did not show significant task-related activities. These results suggest that arm movements were planned using a sensorimotor-type of spatial representation. However, when a 8 s delay was introduced between body rotation and the arm movement (Experiment 2), we found that areas involved in the cognitive encoding of space [e.g., ventral premotor cortex (vPM), rostral ACC, inferior and superior posterior parietal cortex (PPC)] showed task-related activities. Overall, our results suggest that the use of a cognitive-type of representation for planning arm movement after body motion is necessary when relevant spatial information must be stored before triggering the movement

Female-perpetrated sexual abuse: a review of victim and professional perspectives

Professional attitudes towards female-perpetrated sexual abuse (FPSA) reportedly reflect he gender-role expectations found in broader society, which cast males almost exclusively as sexual aggressors or willing sexual recipients, females as sexually non-coercive or victims and male-perpetrated sexual abuse as particularly significant or injurious. Such views, however, appear to stand in contrast to the perspectives of individuals who have experienced FPSA. This paper details a systematic review of peer-reviewed quantitative and qualitative literature examining these different (professional and victim) perspectives. Although the methodological shortcomings of primary papers limit the conclusions that can be drawn, the findings suggest that victim and professional perspectives of FPSA remain discrepant; professionals generally considered FPSA as less serious, less harmful and less deserving of investigation than male-perpetrated abuse; while victims of FPSA felt their experiences influenced significantly their psychological wellbeing and abilities to form and maintain interpersonal relationships. These findings are discussed in relation to professional practice and suggestions for future research

Do Gravity-Related Sensory Information Enable the Enhancement of Cortical Proprioceptive Inputs When Planning a Step in Microgravity?

International audienceWe recently found that the cortical response to proprioceptive stimulation was greater when participants were planning a step than when they stood still, and that this sensory facilitation was suppressed in microgravity. The aim of the present study was to test whether the absence of gravity-related sensory afferents during movement planning in microgravity prevented the proprioceptive cortical processing to be enhanced. We reestablished a reference frame in microgravity by providing and translating a horizontal support on which the participants were standing and verified whether this procedure restored the proprioceptive facilitation. The slight translation of the base of support (lateral direction), which occurred prior to step initiation, stimulated at least cutaneous and vestibular receptors. The sensitivity to proprioceptive stimulation was assessed by measuring the amplitude of the cortical somatosensory-evoked potential (SEP, over the Cz electrode) following the vibration of the leg muscle. The vibration lasted 1 s and the participants were asked to either initiate a step at the vibration offset or to remain still. We found that the early SEP (90–160 ms) was smaller when the platform was translated than when it remained stationary, revealing the existence of an interference phenomenon (i.e., when proprioceptive stimulation is preceded by the stimulation of different sensory modalities evoked by the platform translation). By contrast, the late SEP (550 ms post proprioceptive stimulation onset) was greater when the translation preceded the vibration compared to a condition without pre-stimulation (i.e., no translation). This suggests that restoring a body reference system which is impaired in microgravity allowed a greater proprioceptive cortical processing. Importantly, however, the late SEP was similarly increased when participants either produced a step or remained still. We propose that the absence of step-induced facilitation of proprioceptive cortical processing results from a decreased weight of proprioception in the absence of balance constraints in microgravity

De-constructing Risk, Therapeutic Needs and the Dangerous Personality Disordered Subject

The focus of this article is on the Dangerous and Severe Personality Disorder (DSPD) programme and its successor, the Offender Personality Disorder Pathway: two initiatives in England and Wales with the aim of protecting the public from dangerous offenders through a combination of preventive detention and therapeutic intervention in prisons and psychiatric hospitals. In this article, I first explore how the dangerous yet potentially redeemable DSPD subject was constructed by policymakers before turning to examine how the risks this group posed were translated into therapeutic needs under the DSPD programme. In so doing, I contend that prisoners’ mental health needs are not only targeted for humane reasons but also as a means of facilitating the cost-effective management of difficult and disruptive individuals. Furthermore, meeting these needs can serve as an intermediate step towards drawing difficult prisoners into mainstream offending behaviour programmes explicitly targeting criminogenic risk factors. Ultimately, I conclude that, given that meeting prisoners’ mental health needs is contingent on the compatibility of therapeutic regimes with the priorities of the prison, treatment programmes will ultimately yield to the overriding concerns of security and control in the event of conflict

Cortical facilitation of proprioceptive inputs during an executed or an imagined step preparation : a microgravity and normogravity study.

Les informations sensorielles peuvent être atténuées de la périphérie jusqu'au cortex durant le mouvement. Notre hypothèse est que l'information somatosensorielle serait facilitée durant la planification du pas où il serait inopportun de supprimer ces informations cruciales. Nous avons enregistré les potentiels somatosensoriels (SEPs) évoqués par vibration bilatérale des muscles des chevilles afin de stimuler la proprioception.Les résultats montrent que la composante évoquée corticale précoce restait inchangée mais une composante tardive négative était significativement augmentée durant la planification du pas.Pour tester si cette facilitation proprioceptive était due aux contraintes d'équilibre, la même expérience fut effectuée en microgravité où cette facilitation disparut, malgré la restauration d'un cadre de référence spatial.Cette facilitation tardive survint pendant l'imagerie motrice kinesthésique d'un pas planifié, démontrant que l'imagerie mentale intègrerait les contraintes d'équilibre et posturales requises pour la tâche, ceci étant confirmé par la disparition de cette facilitation lors de la planification du pas imaginé en microgravité.Ceci démontre au niveau neurophysiologique, une modulation de la transmission des afférences sensorielles selon leur pertinence pour planifier un mouvement. Cette facilitation résulterait de mécanismes prédictifs reliés à l'importance de contrôler l'équilibre du corps avant l'initiation du pas, car ce processus survint durant la planification d'un pas exécuté ou imaginé. Il serait basé sur un modèle interne de l'action impliquant des lois physiques du mouvement (1-g modèle) car cette facilitation fut supprimée en microgravité.Sensory inputs can be attenuated from the periphery to the cortex during voluntary movements. Our hypothesis is that the somatosensory information could be facilitated during the planning of a step. It would appear dysfunctional to suppress somatosensory information, which is considered to be of the utmost importance for gait planning. We recorded somatosensory potentials (SEPs) evoked by bilateral ankle vibration to stimulate proprioception. Results showed that cortical early evoked component remained unchanged but a negative late component was significantly increased during step planning. To determine whether this facilitation of proprioceptive inputs was related to gravitational equilibrium constraints, we performed the same experiment in microgravity. In the absence of equilibrium constraints, both components did not significantly differ between the static and stepping conditions, despite the restoration of a body in space reference frame.This late facilitation occurred during kinesthetic motor imagery of a planned step, suggesting that mental imagery would integrate postura and balance constraints required for the task, as it was confirmed byt the lack of this facilitation during the planning of an imagined step in microgravity.These observations provide neurophysiological evidence that the brain exerts a dynamic control over the transmission of the afferent signal according to their current relevance during movement preparation.These processes should be based on internal model of action involving the physical laws of motion (1g-model) as this sensory facilitation was suppressed in microgravity when planning motor imagery