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1. Prediction of Behavioral Improvement Through Resting-State Electroencephalography and Clinical Severity in a Randomized Controlled Trial Testing Bumetanide in Autism Spectrum Disorder

Author

Juarez-Martinez, Erika L., Sprengers, Jan J., Cristian, Gianina, Oranje, Bob, van Andel, Dorinde M., Avramiea, Arthur-Ervin, Simpraga, Sonja, Houtman, Simon J., Hardstone, Richard, Gerver, Cathalijn, Jan van der Wilt, Gert, Mansvelder, Huibert D., Eijkemans, Marinus J.C., Linkenkaer-Hansen, Klaus, and Bruining, Hilgo

Published
2023
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2. The Role of Attention in Word Recognition: Results from OB1-Reader

Author

Meeter, Martijn, Marzouki, Yousri, Avramiea, Arthur E., Snell, Joshua, and Grainger, Jonathan

Abstract

When reading, orthographic information is extracted not only from the word the reader is looking at, but also from adjacent words in the parafovea. Here we examined, using the recently introduced OB1-reader computational model, how orthographic information can be processed in parallel across multiple words and how orthographic information can be integrated across time and space. Although OB1-reader is a model of text reading, here we used it to simulate single-word recognition experiments in which parallel processing has been shown to play a role by manipulating the surrounding context in flanker and priming paradigms. In flanker paradigms, observers recognize a central word flanked by other letter strings located left and right of the target and separated from the target by a space. The model successfully accounts for the finding that such flankers can aid word recognition when they contain bigrams of the target word, independent of where those flankers are in the visual field. In priming experiments, in which the target word is preceded by a masked prime, the model accounts for the finding that priming occurs independent of whether the prime and target word are in the same location or not. Crucial to these successes is the key role that spatial attention plays within OB1-reader, as it allows the model to receive visual input from multiple locations in parallel, while limiting the kinds of errors that can potentially occur under such spatial pooling of orthographic information.

Published
2020
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3. Robin’s Viewer: Using deep-learning predictions to assist EEG annotation

Author

Robin Weiler, Marina Diachenko, Erika L. Juarez-Martinez, Arthur-Ervin Avramiea, Peter Bloem, and Klaus Linkenkaer-Hansen

Subjects
EEG, viewer, deep learning, artifacts, annotation, open source, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Machine learning techniques such as deep learning have been increasingly used to assist EEG annotation, by automating artifact recognition, sleep staging, and seizure detection. In lack of automation, the annotation process is prone to bias, even for trained annotators. On the other hand, completely automated processes do not offer the users the opportunity to inspect the models’ output and re-evaluate potential false predictions. As a first step toward addressing these challenges, we developed Robin’s Viewer (RV), a Python-based EEG viewer for annotating time-series EEG data. The key feature distinguishing RV from existing EEG viewers is the visualization of output predictions of deep-learning models trained to recognize patterns in EEG data. RV was developed on top of the plotting library Plotly, the app-building framework Dash, and the popular M/EEG analysis toolbox MNE. It is an open-source, platform-independent, interactive web application, which supports common EEG-file formats to facilitate easy integration with other EEG toolboxes. RV includes common features of other EEG viewers, e.g., a view-slider, tools for marking bad channels and transient artifacts, and customizable preprocessing. Altogether, RV is an EEG viewer that combines the predictive power of deep-learning models and the knowledge of scientists and clinicians to optimize EEG annotation. With the training of new deep-learning models, RV could be developed to detect clinical patterns other than artifacts, for example sleep stages and EEG abnormalities.

Published
2023
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4. Bumetanide Effects on Resting-State EEG in Tuberous Sclerosis Complex in Relation to Clinical Outcome: An Open-Label Study

Author

Erika L. Juarez-Martinez, Dorinde M. van Andel, Jan J. Sprengers, Arthur-Ervin Avramiea, Bob Oranje, Floortje E. Scheepers, Floor E. Jansen, Huibert D. Mansvelder, Klaus Linkenkaer-Hansen, and Hilgo Bruining

Subjects
tuberous sclerosis complex (TSC), bumetanide, EEG, excitation-inhibition balance, repetitive behavior, irritability, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Neuronal excitation-inhibition (E/I) imbalances are considered an important pathophysiological mechanism in neurodevelopmental disorders. Preclinical studies on tuberous sclerosis complex (TSC), suggest that altered chloride homeostasis may impair GABAergic inhibition and thereby E/I-balance regulation. Correction of chloride homeostasis may thus constitute a treatment target to alleviate behavioral symptoms. Recently, we showed that bumetanide—a chloride-regulating agent—improved behavioral symptoms in the open-label study Bumetanide to Ameliorate Tuberous Sclerosis Complex Hyperexcitable Behaviors trial (BATSCH trial; Eudra-CT: 2016-002408-13). Here, we present resting-state EEG as secondary analysis of BATSCH to investigate associations between EEG measures sensitive to network-level changes in E/I balance and clinical response to bumetanide. EEGs of 10 participants with TSC (aged 8–21 years) were available. Spectral power, long-range temporal correlations (LRTC), and functional E/I ratio (fE/I) in the alpha-frequency band were compared before and after 91 days of treatment. Pre-treatment measures were compared against 29 typically developing children (TDC). EEG measures were correlated with the Aberrant Behavioral Checklist-Irritability subscale (ABC-I), the Social Responsiveness Scale-2 (SRS-2), and the Repetitive Behavior Scale-Revised (RBS-R). At baseline, TSC showed lower alpha-band absolute power and fE/I than TDC. Absolute power increased through bumetanide treatment, which showed a moderate, albeit non-significant, correlation with improvement in RBS-R. Interestingly, correlations between baseline EEG measures and clinical outcomes suggest that most responsiveness might be expected in children with network characteristics around the E/I balance point. In sum, E/I imbalances pointing toward an inhibition-dominated network are present in TSC. We established neurophysiological effects of bumetanide although with an inconclusive relationship with clinical improvement. Nonetheless, our results further indicate that baseline network characteristics might influence treatment response. These findings highlight the possible utility of E/I-sensitive EEG measures to accompany new treatment interventions for TSC.Clinical Trial RegistrationEU Clinical Trial Register, EudraCT 2016-002408-13 (www.clinicaltrialsregister.eu/ctr-search/trial/2016-002408-13/NL). Registered 25 July 2016.

Published
2022
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5. Adaptive Variable Stiffness with strategically arranged materials

Author

Henriette Bier, Arwin Hidding, and Emma Chris Avramiea

Subjects
structures, joint, control, shape, stiffness, adaptive, Architecture, NA1-9428
Abstract

By designing materials with variable stiffness, structures can adapt to various functional requirements. This paper presents variable stiffness explored in two case studies relying on an architected material approach that involved gradient pattern differentiation and freeform printing using thermoplastic polymers (TPE). The differentiated cell pattern had gradients from high to low density of cells, which facilitate variable stiffness. Numerical and experimental studies showed the potential for application of materials with variable stiffness in adaptive structures.

Published
2020
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6. Pre-stimulus phase and amplitude regulation of phase-locked responses are maximized in the critical state

Author

Arthur-Ervin Avramiea, Richard Hardstone, Jan-Matthis Lueckmann, Jan Bím, Huibert D Mansvelder, and Klaus Linkenkaer-Hansen

Subjects
critical brain dynamics, perception, versatility, ongoing oscillations, Medicine, Science, Biology (General), QH301-705.5
Abstract

Understanding why identical stimuli give differing neuronal responses and percepts is a central challenge in research on attention and consciousness. Ongoing oscillations reflect functional states that bias processing of incoming signals through amplitude and phase. It is not known, however, whether the effect of phase or amplitude on stimulus processing depends on the long-term global dynamics of the networks generating the oscillations. Here, we show, using a computational model, that the ability of networks to regulate stimulus response based on pre-stimulus activity requires near-critical dynamics—a dynamical state that emerges from networks with balanced excitation and inhibition, and that is characterized by scale-free fluctuations. We also find that networks exhibiting critical oscillations produce differing responses to the largest range of stimulus intensities. Thus, the brain may bring its dynamics close to the critical state whenever such network versatility is required.

Published
2020
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8. Regulation of critical brain dynamics and its functional implications

Author

Arthur-Ervin Avramiea, Mansvelder, HD, Linkenkaer Hansen, Klaus, Amsterdam Neuroscience - Brain Imaging, and Integrative Neurophysiology

Subjects
critical brain dynamics, neuromodulation, functional connectivity, excitation-inhibition balance, autism spectrum disorder, EEG, perception, ongoing neuronal oscillations, versatility
Abstract

Evidence of criticality at various levels of neuronal organization has accumulated over the past 2 decades. However, little is known of how criticality affects brain function, whether the critical state is always optimal for information processing, and whether the brain can change its operating point with regards to criticality so as to accommodate varying information processing requirements. Therefore, the aim of this thesis is to elucidate mechanisms that regulate brain criticality and to understand their impact on local and global information processing. We empirically validated that the brain can control the level of criticality via neuromodulation, with implications on perception. Then, we relied on computational modeling to gain full control on the parameters that determine criticality, and tested the implications of the level of criticality on two theories of brain function. Last, since excitation/inhibition balance is known to be a crucial determinant of criticality, which can vary across individuals, but also within subjects across time with neuromodulation, we developed a method to non-invasively estimate the functional E/I ratio.

Published
2023
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9. Long-Range Temporal Correlations in Alpha Oscillations Stabilize Perception of Ambiguous Visual Stimuli

Author

Francesca Sangiuliano Intra, Arthur-Ervin Avramiea, Mona Irrmischer, Simon-Shlomo Poil, Huibert D. Mansvelder, and Klaus Linkenkaer-Hansen

Subjects
bistable perception, spontaneous brain fluctuations, voluntary control, resting-state EEG, resting-state questionnaire, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571
Abstract

Ongoing brain dynamics have been proposed as a type of “neuronal noise” that can trigger perceptual switches when viewing an ambiguous, bistable stimulus. However, no prior study has directly quantified how such neuronal noise relates to the rate of percept reversals. Specifically, it has remained unknown whether individual differences in complexity of resting-state oscillations—as reflected in long-range temporal correlations (LRTC)—are associated with perceptual stability. We hypothesized that participants with stronger resting-state LRTC in the alpha band experience more stable percepts, and thereby fewer perceptual switches. Furthermore, we expected that participants who report less discontinuous thoughts during rest, experience less switches. To test this, we recorded electroencephalography (EEG) in 65 healthy volunteers during 5 min Eyes-Closed Rest (ECR), after which they filled in the Amsterdam Resting-State Questionnaire (ARSQ). This was followed by three conditions where participants attended an ambiguous structure-from-motion stimulus—Neutral (passively observe the stimulus), Hold (the percept for as long as possible), and Switch (as often as possible). LRTC of resting-state alpha oscillations predicted the number of switches only in the Hold condition, with stronger LRTC associated with less switches. Contrary to our expectations, there was no association between resting-state Discontinuity of Mind and percept stability. Participants were capable of controlling switching according to task goals, and this was accompanied by increased alpha power during Hold and decreased power during Switch. Fewer switches were associated with stronger task-related alpha LRTC in all conditions. Together, our data suggest that bistable visual perception is to some extent under voluntary control and influenced by LRTC of alpha oscillations.

Published
2018
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10. Catecholamines alter the intrinsic variability of cortical population activity and perception.

Author

Thomas Pfeffer, Arthur-Ervin Avramiea, Guido Nolte, Andreas K Engel, Klaus Linkenkaer-Hansen, and Tobias H Donner

Subjects
Biology (General), QH301-705.5
Abstract

The ascending modulatory systems of the brain stem are powerful regulators of global brain state. Disturbances of these systems are implicated in several major neuropsychiatric disorders. Yet, how these systems interact with specific neural computations in the cerebral cortex to shape perception, cognition, and behavior remains poorly understood. Here, we probed into the effect of two such systems, the catecholaminergic (dopaminergic and noradrenergic) and cholinergic systems, on an important aspect of cortical computation: its intrinsic variability. To this end, we combined placebo-controlled pharmacological intervention in humans, recordings of cortical population activity using magnetoencephalography (MEG), and psychophysical measurements of the perception of ambiguous visual input. A low-dose catecholaminergic, but not cholinergic, manipulation altered the rate of spontaneous perceptual fluctuations as well as the temporal structure of "scale-free" population activity of large swaths of the visual and parietal cortices. Computational analyses indicate that both effects were consistent with an increase in excitatory relative to inhibitory activity in the cortical areas underlying visual perceptual inference. We propose that catecholamines regulate the variability of perception and cognition through dynamically changing the cortical excitation-inhibition ratio. The combined readout of fluctuations in perception and cortical activity we established here may prove useful as an efficient and easily accessible marker of altered cortical computation in neuropsychiatric disorders.

Published
2018
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11. Collaborative Management of Risks and Complexity in Banking Systems

Author

Ion IVAN, Cristian CIUREA, Mihai DOINEA, and Arthur AVRAMIEA

Subjects
Collaborative Management, Risk, Complexity, Banking Systems, Processes, Security, Computer engineering. Computer hardware, TK7885-7895, Bibliography. Library science. Information resources
Abstract

This paper describes types of risks encountered in banking systems and ways to prevent and eliminate them. Banking systems are presented in order to have a view on banking activities and processes that generates risks. The risks in banking processes are analyzed and the collaborative character of risk management is highlighted. A way to control the risk in banking systems through information security is described. Risks arise from system complexity, thus evaluation and comparison of different configurations are bases for improvements. The Halstead relative complexity function synthesizes system complexity from the point of view of the size of the variables analyzed and the heterogeneity between the variables. Section four was realized by Catalin SBORA.

Published
2012

12. The Role of Attention in Word Recognition: Results from OB1‐Reader

Author

Yousri Marzouki, Joshua Snell, Martijn Meeter, Jonathan Grainger, Arthur Ervin Avramiea, Vrije Universiteit Amsterdam [Amsterdam] (VU), Qatar University, Institute of Language, Communication and the Brain (ILCB), Aix Marseille Université (AMU)-Centre National de la Recherche Scientifique (CNRS), Laboratoire de psychologie cognitive (LPC), Educational and Family Studies, LEARN! - Learning sciences, Integrative Neurophysiology, Amsterdam Neuroscience - Brain Imaging, Cognitive Psychology, and IBBA

Subjects
Parallel processing (psychology), Computer science, Cognitive Neuroscience, Spatial ability, Speech recognition, media_common.quotation_subject, Experimental and Cognitive Psychology, Context (language use), 050105 experimental psychology, 03 medical and health sciences, [SCCO]Cognitive science, 0302 clinical medicine, Artificial Intelligence, Reading (process), Humans, 0501 psychology and cognitive sciences, Attention, media_common, 05 social sciences, Parafovea, Regular Article, Computational modeling, Pattern Recognition, Visual, Reading, Word recognition, SDG 4 - Quality Education, Priming (psychology), 030217 neurology & neurosurgery, Word (computer architecture)
Abstract

International audience; When reading, orthographic information is extracted not only from the word the reader is looking at, but also from adjacent words in the parafovea. Here we examined, using the recently introduced OB1-reader computational model, how orthographic information can be processed in parallel across multiple words and how orthographic information can be integrated across time and space. Although OB1-reader is a model of text reading, here we used it to simulate single-word recognition experiments in which parallel processing has been shown to play a role by manipulating the surrounding context in flanker and priming paradigms. In flanker paradigms, observers recognize a central word flanked by other letter strings located left and right of the target and separated from the target by a space. The model successfully accounts for the finding that such flankers can aid word recognition when they contain bigrams of the target word, independent of where those flankers are in the visual field. In priming experiments, in which the target word is preceded by a masked prime, the model accounts for the finding that priming occurs independent of whether the prime and target word are in the same location or not. Crucial to these successes is the key role that spatial attention plays within OB1-reader, as it allows the model to receive visual input from multiple locations in parallel, while limiting the kinds of errors that can potentially occur under such spatial pooling of orthographic information.

Published
2020
Full Text
View/download PDF

13. Bumetanide Effects on Resting-State EEG in Tuberous Sclerosis Complex in Relation to Clinical Outcome: An Open-Label Study.

Author

Juarez-Martinez, Erika L., van Andel, Dorinde M., Sprengers, Jan J., Avramiea, Arthur-Ervin, Oranje, Bob, Scheepers, Floortje E., Jansen, Floor E., Mansvelder, Huibert D., Linkenkaer-Hansen, Klaus, and Bruining, Hilgo

Subjects
TUBEROUS sclerosis, BUMETANIDE, ELECTROENCEPHALOGRAPHY, TREATMENT effectiveness, SECONDARY analysis
Abstract

Neuronal excitation-inhibition (E/I) imbalances are considered an important pathophysiological mechanism in neurodevelopmental disorders. Preclinical studies on tuberous sclerosis complex (TSC), suggest that altered chloride homeostasis may impair GABAergic inhibition and thereby E/I-balance regulation. Correction of chloride homeostasis may thus constitute a treatment target to alleviate behavioral symptoms. Recently, we showed that bumetanide—a chloride-regulating agent—improved behavioral symptoms in the open-label study Bumetanide to Ameliorate Tuberous Sclerosis Complex Hyperexcitable Behaviors trial (BATSCH trial; Eudra-CT: 2016-002408-13). Here, we present resting-state EEG as secondary analysis of BATSCH to investigate associations between EEG measures sensitive to network-level changes in E/I balance and clinical response to bumetanide. EEGs of 10 participants with TSC (aged 8–21 years) were available. Spectral power, long-range temporal correlations (LRTC), and functional E/I ratio (f E/I) in the alpha-frequency band were compared before and after 91 days of treatment. Pre-treatment measures were compared against 29 typically developing children (TDC). EEG measures were correlated with the Aberrant Behavioral Checklist-Irritability subscale (ABC-I), the Social Responsiveness Scale-2 (SRS-2), and the Repetitive Behavior Scale-Revised (RBS-R). At baseline, TSC showed lower alpha-band absolute power and f E/I than TDC. Absolute power increased through bumetanide treatment, which showed a moderate, albeit non-significant, correlation with improvement in RBS-R. Interestingly, correlations between baseline EEG measures and clinical outcomes suggest that most responsiveness might be expected in children with network characteristics around the E/I balance point. In sum, E/I imbalances pointing toward an inhibition-dominated network are present in TSC. We established neurophysiological effects of bumetanide although with an inconclusive relationship with clinical improvement. Nonetheless, our results further indicate that baseline network characteristics might influence treatment response. These findings highlight the possible utility of E/I-sensitive EEG measures to accompany new treatment interventions for TSC. Clinical Trial Registration: EU Clinical Trial Register, EudraCT 2016-002408-13 (www.clinicaltrialsregister.eu/ctr-search/trial/2016-002408-13/NL). Registered 25 July 2016. [ABSTRACT FROM AUTHOR]

Published
2022
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14. Blinded by the light: How a focus on statistical 'significance' may cause p-value misreporting and an excess of p-values just below .05 in communication science

Author

Ivar Vermeulen, Arthur Avramiea, Dimo Stoyanov, Bob van de Velde, Camiel J. Beukeboom, Dirk Oegema, Anika Batenburg, Communication Science, Network Institute, Communication Choices, Content and Consequences (CCCC), Centre for Advanced Media Research Amsterdam (CAMeRA), and Integrative Neurophysiology

Subjects
Social psychology (sociology), Language in Society, Communication, Statistical significance, Persuasive Communication, p-value, Publication bias, Psychology, Social psychology, Focus (linguistics)
Abstract

Publication bias promotes papers providing “significant” findings, thus incentivizing researchers to produce such findings. Prior studies suggested that researchers’ focus on “p .05 (88.3%) or vice versa (11.7%). Analyzing p-value frequencies just below.05 using a novel method did not unequivocally demonstrate “p-hacking”—excess p-values could be alternatively explained by (severe) publication bias. Results for 19,830 p-values from social psychology were strikingly similar. We conclude that publication bias, publication pressure, and verification bias distort the communication science knowledge base, and suggest solutions to this problem.

Published
2015
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16. Long-Range Temporal Correlations in Alpha Oscillations Stabilize Perception of Ambiguous Visual Stimuli.

Author

Sangiuliano Intra, Francesca, Avramiea, Arthur-Ervin, Irrmischer, Mona, Poil, Simon-Shlomo, Mansvelder, Huibert D., and Linkenkaer-Hansen, Klaus

Subjects
VISUAL perception, ALPHA rhythm, FUNCTIONAL magnetic resonance imaging, BRAIN imaging, ELECTROENCEPHALOGRAPHY
Abstract

Ongoing brain dynamics have been proposed as a type of "neuronal noise" that can trigger perceptual switches when viewing an ambiguous, bistable stimulus. However, no prior study has directly quantified how such neuronal noise relates to the rate of percept reversals. Specifically, it has remained unknown whether individual differences in complexity of resting-state oscillations--as reflected in long-range temporal correlations (LRTC)--are associated with perceptual stability. We hypothesized that participants with stronger resting-state LRTC in the alpha band experience more stable percepts, and thereby fewer perceptual switches. Furthermore, we expected that participants who report less discontinuous thoughts during rest, experience less switches. To test this, we recorded electroencephalography (EEG) in 65 healthy volunteers during 5 min Eyes-Closed Rest (ECR), after which they filled in the Amsterdam Resting-State Questionnaire (ARSQ). This was followed by three conditions where participants attended an ambiguous structure-from-motion stimulus--Neutral (passively observe the stimulus), Hold (the percept for as long as possible), and Switch (as often as possible). LRTC of resting-state alpha oscillations predicted the number of switches only in the Hold condition, with stronger LRTC associated with less switches. Contrary to our expectations, there was no association between resting-state Discontinuity of Mind and percept stability. Participants were capable of controlling switching according to task goals, and this was accompanied by increased alpha power during Hold and decreased power during Switch. Fewer switches were associated with stronger task-related alpha LRTC in all conditions. Together, our data suggest that bistable visual perception is to some extent under voluntary control and influenced by LRTC of alpha oscillations. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
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17. Catecholamines alter the intrinsic variability of cortical population activity and perception.

Author

Pfeffer, Thomas, Avramiea, Arthur-Ervin, Nolte, Guido, Engel, Andreas K., Linkenkaer-Hansen, Klaus, and Donner, Tobias H.

Subjects
CATECHOLAMINES, NEUROBEHAVIORAL disorders, BRAIN stem, CEREBRAL cortex, VISUAL cortex, SENSORY perception, COGNITION
Abstract

The ascending modulatory systems of the brain stem are powerful regulators of global brain state. Disturbances of these systems are implicated in several major neuropsychiatric disorders. Yet, how these systems interact with specific neural computations in the cerebral cortex to shape perception, cognition, and behavior remains poorly understood. Here, we probed into the effect of two such systems, the catecholaminergic (dopaminergic and noradrenergic) and cholinergic systems, on an important aspect of cortical computation: its intrinsic variability. To this end, we combined placebo-controlled pharmacological intervention in humans, recordings of cortical population activity using magnetoencephalography (MEG), and psychophysical measurements of the perception of ambiguous visual input. A low-dose catecholaminergic, but not cholinergic, manipulation altered the rate of spontaneous perceptual fluctuations as well as the temporal structure of “scale-free” population activity of large swaths of the visual and parietal cortices. Computational analyses indicate that both effects were consistent with an increase in excitatory relative to inhibitory activity in the cortical areas underlying visual perceptual inference. We propose that catecholamines regulate the variability of perception and cognition through dynamically changing the cortical excitation–inhibition ratio. The combined readout of fluctuations in perception and cortical activity we established here may prove useful as an efficient and easily accessible marker of altered cortical computation in neuropsychiatric disorders. [ABSTRACT FROM AUTHOR]

Published
2018
Full Text
View/download PDF

18. Blinded by the Light: How a Focus on Statistical “Significance” May Cause p -Value Misreporting and an Excess of p -Values Just Below .05 in Communication Science.

Author

Vermeulen, Ivar, Beukeboom, Camiel J., Batenburg, Anika, Avramiea, Arthur, Stoyanov, Dimo, van de Velde, Bob, and Oegema, Dirk

Subjects
STATISTICAL hypothesis testing, STATISTICAL significance, COMMUNICATIONS research, OBJECTIVITY in journalism, JOURNALISTIC ethics
Abstract

Publication bias promotes papers providing “significant” findings, thus incentivizing researchers to produce such findings. Prior studies suggested that researchers’ focus on “p< .05” yields—intentional or unintentional—p-value misreporting, and excessp-values just below .05. To assess whether similar distortions occur in communication science, we extracted 5,834 test statistics from 693 recent communication science ISI papers, and assessed prevalence ofp-values (1) misreported, and (2) just below .05. Results show 8.8% ofp-values were misreported (74.5% too low). 1.3% ofp-values were critically misreported, statingp< .05 while in factp> .05 (88.3%) or vice versa (11.7%). Analyzingp-value frequencies just below .05 using a novel method did not unequivocally demonstrate “p-hacking”—excessp-values could be alternatively explained by (severe) publication bias. Results for 19,830p-values from social psychology were strikingly similar. We conclude that publication bias, publication pressure, and verification bias distort the communication science knowledge base, and suggest solutions to this problem. [ABSTRACT FROM PUBLISHER]

Published
2015
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19. Collaborative Management of Risks and Complexity in Banking Systems.

Author

Ivan, Ion, Ciurea, Cristian, Doinea, Mihai, and Avramiea, Arthur

Subjects
BANKING industry, RISK management in business, COMPUTER security, RISK assessment, RISK management information systems
Abstract

This paper describes types of risks encountered in banking systems and ways to prevent and eliminate them. Banking systems are presented in order to have a view on banking activities and processes that generates risks. The risks in banking processes are analyzed and the collaborative character of risk management is highlighted. A way to control the risk in banking systems through information security is described. Risks arise from system complexity, thus evaluation and comparison of different configurations are bases for improvements. The Halstead relative complexity function synthesizes system complexity from the point of view of the size of the variables analyzed and the heterogeneity between the variables. Section four was realized by Catalin SBORA. [ABSTRACT FROM AUTHOR]

Published
2012

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