First empirical evaluation of the link between attachment, social cognition and borderline features in adolescents

OBJECTIVE: Several developmental models of borderline personality disorder (BPD) emphasize the role of disrupted interpersonal relationships or insecure attachment. As yet, attachment quality and the mechanisms by which insecure attachment relates to borderline features in adolescents have not been investigated. In this study, we used a multiple mediational approach to examine the cross-sectional interplay between attachment, social cognition (in particular hypermentalizing), emotion dysregulation, and borderline features in adolescence, controlling for internalizing and externalizing symptoms. METHODS: The sample included 259 consecutive admissions to an adolescent inpatient unit (Mage=15.42, SD=1.43; 63.1% female). The Child Attachment Interview (CAI) was used to obtain a dimensional index of overall coherence of the attachment narrative. An experimental task was used to assess hypermentalizing, alongside self-report measures of emotion dyregulation and BPD. RESULTS: Our findings suggested that, in a multiple mediation model, hypermentalizing and emotion dysregulation together mediated the relation between attachment coherence and borderline features, but that this effect was driven by hypermentalizing; that is, emotion dysregulation failed to mediate the link between attachment coherence and borderline features while hypermentalizing demonstrated mediational effects. CONCLUSIONS: The study provides the first empirical evidence of well-established theoretical approaches to the development of BPD

Cattle Behavior Recognition System using Machine Learning and Internet of Things

Cattle behavior recognition system is an innovative way to assess the well-being of cattle by analyzing their behavior data. Non-intrusive monitoring systems using accelerometers have become popular due to their affordability and ease of use, especially when coupled with machine learning algorithms. However, accurately identifying different behaviors can be challenging, as similar acceleration data may be associated with different actions. To address this issue, we present an efficient approach that combines leg-mounted and collar-mounted accelerometers to recognize six distinct cow behaviors: Walking, Standing-Resting, Grazing, Lying-Resting, Lying-Ruminating, and Standing-Ruminating. To determine the best accuracy, different machine learning algorithms were employed and their performance is analyzed. With its non-intrusive design and high-performance capabilities, this technology has the potential to revolutionize the livestock industry by allowing farmers to monitor their herds more effectively and make informed decisions to improve their welfare

Hydraulic Modeling of Glacial Dam-Break Floods on the West Branch of the Susquehanna River, Pennsylvania

This study investigates the potential hydraulic conditions of catastrophic floods in the West Branch of the Susquehanna River (West Branch) during the middle to late Pleistocene period and the influence of these paleofloods on the current river bed form. The current channel bed form is characterized using sonar bathymetry data collection techniques. The paleofloods are hypothesized based on published geological evidence of early Pleistocene glacial Lake Lesley in the West Branch Valley, which was formed by a glacial ice dam that potentially failed during mild climate cycles in the Pleistocene period. A one-dimensional, steady hydraulic model is developed to simulate estimates of paleoflood peak discharges and the modern 100 year return period peak discharge. The computed water-surface profiles, shear stresses, and flood inundation maps could explain the erosional and depositional features identified by other researchers as being formed during the Pleistocene and could explain features revealed by the bathymetry data. Therefore, the hydraulic modeling results support previously inferred hypotheses of the occurrence of glacial dam-break floods on the West Branch of the Susquehanna River. The differences that are evident between the paleoflood simulations and the simulation of the modern 100 year peak discharge are attributable to valley constrictions that cause substantial backwater effects for the larger paleoflood discharges but not for the lower modern flood discharge volume. The ability to simulate potential paleofloods in the West Branch of the Susquehanna River complements the paleostage indicator work done by other researchers and enables innovative analysis of glaciofluvial processes and their effect on the current river bed form

Post-Flood Cleanup Alternatives along Stream Corridors in Central Pennsylvania Helping Resolve River and Land Use Conflicts in an Economically and Ecologically Sustainable Manner

Report on managing river corridors of Central Pennsylvania in an economically and ecologically sustainable manner. Fluvial geomorphologists and civil engineers from Bucknell University present results of research and analysis of the impact of floods on Central Pennsylvania streams, bridges, dams, and roads. Ten sections cover 1. Key Concepts for Managing River Corridors in a Sustainable Manner; 2. Options for Managing the Conflict between Nature and Man; 3. The Physical Imperatives of River Systems; 4. Dynamic Equilibrium of Streams and Anticipating Adjustments in the Future; 5. The Conflict: Today’s Accounting; 6. Cost-Benefit Analysis; 7. Short vs. Long Term Solutions: A Choice of Management Scenarios; 8. “Stream-Cleaning” – allow gravel or “do nothing”? 9. Informing the Alternative Selection Process; 10. Managing Sustainably. The report focuses on the long term benefits of a geomorphic corridor management approach which can benefit both property owners and riparian ecosystems. The largest challenge is not in conducting the scientific analyses to determine the river’s slope and planform requirements, but rather in how to redefine the relationship of public and private investments with fluvial dynamics in an equitable manner over time within a watershed. The larger short term costs associated with using a geomorphic-based approach, where land conversion is necessary, become more acceptable and economically justifiable where channelization projects have failed repeatedly or in post flood remediation where major erosion, property damage, and channel avulsions have occurred. A passive geomorphic approach may be the most desirable alternative due to its lower maintenance costs but is highly dependent upon landowners willing to accept what may be significant changes in land use expectations. Concluding recommendations exhort State and Federal agencies involved with river resource management to work together to provide economic incentives and technical assistance for towns and landowners to make decisions that resolve immediate conflicts with the long term watershed solutions in mind

Does familial risk for alcohol use disorder predict alcohol hangover?

Positive family history of alcohol use disorder (FHP), a variable associated with propensity for alcohol use disorder (AUD), has been linked with elevated hangover frequency and severity, after controlling for alcohol use. This implies that hangover experiences may be related to AUD. However, inadequate control of alcohol consumption levels, low alcohol dose and testing for hangover during the intoxication phase detract from these findings. Here, we present further data pertinent to understanding the relationship between family history and alcohol hangover. Study 1 compared past year hangover frequency in a survey of 24 FHP and 118 family history negative (FHN) individuals. Study 2 applied a quasi-experimental naturalistic approach assessing concurrent hangover severity in 17 FHP and 32 FHN individuals the morning after drinking alcohol. Both studies applied statistical control for alcohol consumption levels. In Study 1, both FHP status and estimated blood alcohol concentration on the heaviest drinking evening of the past month predicted the frequency of hangover symptoms experienced over the previous 12 months. In Study 2, estimated blood alcohol concentration the previous evening predicted hangover severity but FHP status did not. FHP, indicating familial risk for AUD, was not associated with concurrent hangover severity but was associated with increased estimates of hangover frequency the previous year

Detection of unhealthy region of plant leaves and classification of plant leaf diseases using texture features

Plant diseases have turned into a dilemma as it can cause significant reduction in both quality and quantity of agricultural products.  Automatic detection of plant diseases is an essential research topic as it may prove benefits in monitoring large fields of crops, and thus automatically detect the symptoms of diseases as soon as they appear on plant leaves.  The proposed system is a software solution for automatic detection and classification of plant leaf diseases.  The developed processing scheme consists of four main steps, first a color transformation structure for the input RGB image is created, then the green pixels are masked and removed using specific threshold value followed by segmentation process, the texture statistics are computed for the useful segments, finally the extracted features are passed through the classifier.  The proposed algorithm’s efficiency can successfully detect and classify the examined diseases with an accuracy of 94%.  Experimental results on a database of about 500 plant leaves confirm the robustness of the proposed approach.   Keywords: HSI, color co-occurrence matrix, texture, SVM, plant leaf disease

Housing options for older people in a reimagined housing system: a case study from England

The housing options of older people now extend far beyond the traditional choice between staying put and making do, or moving to specialist housing or residential care. A flexible suite of options has emerged, centred on promoting independence and wellbeing. Valuable insights have been provided into the development, delivery, costs and benefits of these options. Light has also been cast on the experiences and preferences of older people. However, little is know about who gets what housing, where and why. This reflects a tendency within analysis to consider these different housing options in isolation. This study responds by situating the housing options of older people within wider debates about the reimagining of the housing system driven by the neoliberal transformation in housing politics. Taking a case study approach, it explores the gap between the ambitions of policy and realities of provision at the local level, relates this to the particular intersection of state practices and market mechanisms manifest in the case study and, in doing so, rises to the challenge of extending analysis of the impacts of the neoliberal approach on the right to housing to new groups and different settings

Effects of variation in posture and respiration on RSA and pre-ejection period

The extent to which variation in posture and respiration can confound pre-ejection period and respiratory sinus arrhythmia (RSA) as indices of cardiac sympatho-vagal activity was examined. Within-subjects changes in these measures were assessed in 36 subjects during different postures and (paced) respiratory frequencies. Changes from supine to sitting to standing led to reduced RSA values and longer pre-ejection periods, reflecting the known decrease in vagal but not the increase of sympathetic activity. Multilevel path analysis showed that within-subjects changes in sympatho-vagal balance were faithfully reflected by changes in interbeat interval, but imperfectly by changes in RSA and pre-ejection period. It was concluded that pre-ejection period should be stratified for posture and RSA for respiratory frequency to reliably index changes in sympatho-vagal balance when these factors are prone to change (e.g., during 24-h ambulatory recording). Copyright © 2005 Society for Psychophysiological Research

An improved approach for flight readiness certification: Probabilistic models for flaw propagation and turbine blade failure. Volume 2: Software documentation

An improved methodology for quantitatively evaluating failure risk of spaceflights systems to assess flight readiness and identify risk control measures is presented. This methodology, called Probabilistic Failure Assessment (PFA), combines operating experience from tests and flights with analytical modeling of failure phenomena to estimate failure risk. The PFA methodology is of particular value when information on which to base an assessment of failure risk, including test experience and knowledge of parameters used in analytical modeling, is expensive or difficult to acquire. The PFA methodology is a prescribed statistical structure in which analytical models that characterize failure phenomena are used conjointly with uncertainties about analysis parameters and/or modeling accuracy to estimate failure probability distributions for specific failure modes. These distributions can then be modified, by means of statistical procedures of the PFA methodology, to reflect any test or flight experience. State-of-the-art analytical models currently employed for design, failure prediction, or performance analysis are used in this methodology. The rationale for the statistical approach taken in the PFA methodology is discussed, the PFA methodology is described, and examples of its application to structural failure modes are presented. The engineering models and computer software used in fatigue crack growth and fatigue crack initiation applications are thoroughly documented