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    Examining the effects of inner speech on uncertainty resolution in visual object recognition

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    Inner speech – the internal production of language akin to silent self-directed talk – influences diverse cognitive functions including planning, problem-solving and emotional regulation (Alderson-Day & Fernyhough, 2015; Fernyhough & Borghi, 2023). The Linguistic Active Inference Theory (Yao, 2025) proposes that inner speech reflects the brain’s use of linguistic predictions to revise prior expectations and resolve uncertainty. By deploying linguistic categorical priors, inner speech modulates the precision of perceptual hypotheses, enabling rapid commitment to categorical interpretations under ambiguous conditions. However, evidence for language’s influence on perception stems primarily from studies using external verbal cues rather than self-generated inner speech. The present study addresses this gap by testing whether self-generated inner speech reduces visual uncertainty through prior precision modulation that alters decision-making strategies during object recognition. Substantial evidence demonstrates that language modulates visual perception. Verbal labels facilitate object recognition from early infancy: 7- and 12-month-old infants show enhanced object recognition and memory when objects are named (LaTourrette et al., 2023), whilst 3-year-olds and adults perceive object size and shape differently depending on naming conventions (Landau & Leyton, 1999). In adults, hearing verbal labels before viewing ambiguous Mooney images aids recognition and improves visual discrimination, with preparatory changes in alpha-band oscillations reflecting perceptual readiness (Samaha et al., 2018). Language appears to influence perception through modulation of early sensory representations: prior knowledge about unfamiliar objects enhances visual brain responses at approximately 120 ms and facilitates recognition of particularly blurred images (Abdel Rahman & Sommer, 2008). This early P1 component in extrastriate visual cortex responds to prior conceptual knowledge when recognising both unfamiliar visual objects and their written names (Rabovsky et al., 2012). Importantly, hearing words enhances P1 responses to familiar animals and artefacts more effectively than nonverbal sounds, indicating that linguistic categorical cues influence sensory systems more powerfully than associated sensory experiences (Boutonnet & Lupyan, 2015). Beyond simple detection, language improves visual search efficiency. When participants searched for the numeral 2 amongst 5s, hearing “find the two” or “ignore fives” immediately beforehand improved response times and search efficiency (Lupyan, 2007). Visual search performance improves when novel stimuli are categorised as familiar and improves further when targets or distractors are verbally labelled, demonstrating that familiarity, category membership and linguistic labels enhance visual processing beyond perceptual similarity (Lupyan, 2007, 2008). These effects extend to conscious perception: hearing a word biases detection during binocular continuous flash suppression, rendering otherwise imperceptible stimuli detectable (Lupyan & Ward, 2013), whilst objects associated with verbally described functions show enhanced detection during the attentional blink paradigm, accompanied by increased P1 activity (Weller et al., 2019). Critically, these studies employed externally provided verbal cues. Whether self-generated inner speech produces comparable effects remains unexplored. Theoretical accounts propose that inner speech is recruited specifically under conditions of uncertainty or ambiguity, when individuals engage internal reflection to search for stimulus meaning and guide interpretation (Borghi & Fernyhough, 2022). LAIT specifies this mechanism further: under uncertainty, inner speech generates linguistically structured categorical priors that modulate the precision of perceptual predictions. High-precision priors enable rapid commitment to categorical hypotheses based on partial evidence, manifesting as earlier decisions with greater temporal variability (reflecting the confidence to guess before evidence accumulates). Conversely, articulatory suppression blocks linguistic prediction generation, forcing conservative accumulation of sensory evidence and producing slower but more uniform decision patterns (lower temporal variability). Consistent with this proposal, participants identify concrete versus abstract concepts more slowly under articulatory suppression than under control conditions or nonverbal interference (squeezing a softball), suggesting inner speech aids interpretation when stimulus meaning is uncertain (Fini et al., 2022). Neuroimaging reveals heightened activity in left-lateralised language networks during open-ended abstract thinking – regions consistently linked to inner speech (Berkovich-Ohana et al., 2020). The present study explicitly tests whether self-generated inner speech modulates decision patterns during visual object recognition by examining both central tendency (mean decision time) and distributional properties (decision variability). Participants will identify everyday objects presented in videos that progressively unblur over 10 seconds via Gaussian blur reduction. This dynamic unblurring creates a continuous gradient of uncertainty levels, enabling identification of recognition thresholds whilst capturing decision timing – advantages over paradigms applying fixed uncertainty. Participants will complete this identification task under two counterbalanced conditions: articulatory suppression (continuously verbalising the word ‘aluminium’ to occupy the articulatory motor system) versus foot tapping (a nonverbal motor task controlling for secondary task cognitive load whilst preserving speech processes). Comparing conditions reveals whether inner speech supports object identification under uncertainty. We predict that articulatory suppression will reduce decision variability (sigma) by eliminating early guessing enabled by linguistic priors, forcing participants to wait for conclusive sensory evidence. The effect should prove strongest in individuals who habitually rely on verbal thinking, as linguistic prediction opportunities are most relevant for this population. Established individual differences in verbal thinking styles will be measured using the Internal Representations Questionnaire (Roebuck & Lupyan, 2020). We hypothesise that only individuals who rely predominantly on language to generate predictions will show reduced decision variability under articulatory suppression, whilst less verbal thinkers will show minimal condition differences (cf. Nedergaard & Lupyan, 2024). This individual-differences approach recognises heterogeneity in inner speech reliance and tests the specificity of inner speech’s role in resolving visual uncertainty. The study’s purpose is twofold: (1) to test explicitly whether self-generated inner speech modulates decision patterns through linguistic categorical predictions that enable rapid commitment to hypotheses; (2) to determine whether effects are moderated by individual thinking styles. Expected outcomes include reduced decision variability (lower sigma) and slower decision speeds (higher mu) during articulatory suppression compared to foot tapping in high verbal thinkers, reflecting a reduction of premature guessing strategies. Time-course analysis will reveal whether distributional differences concentrate during periods of high uncertainty (early trial time when objects are heavily blurred), confirming that inner speech specifically facilitates rapid categorical commitment when sensory evidence is ambiguous. Such findings would provide direct evidence that inner speech resolves perceptual uncertainty through internally generated linguistic predictions that modulate decision strategies, extending laboratory findings of external verbal cues in fixed uncertainty conditions to naturalistic self-generated language processes in dynamic uncertainty conditions

    Silicon Dendrites: A Neuromorphic Hardware Architecture for Energy-Efficient Non-Linear Temporal Integration

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    Current Artificial Intelligence (AI) accelerators are limited by the Von Neumann bottleneck and the "Point-Neuron" simplification, where neurons are modeled as zero-dimensional summations of weighted inputs. In contrast, biological neurons utilize complex, three-dimensional dendritic trees to perform non-linear filtering and coincidence detection before a signal reaches the soma. This paper proposes a novel hardware architecture: the Silicon Dendrite Unit (SDU). By utilizing analog CMOS circuits to emulate dendritic capacitance and resistance, we demonstrate a hardware-level "Temporal Integration" that allows for 1,000x greater energy efficiency in processing time-series data compared to traditional GPUs. We provide a mathematical framework for this "Pal-Dendrite" model and discuss its implications for the future of Neuromorphic Computing

    Stress and Coping Among Black Women

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    This study explores the lived experiences of stress and coping among Black women in early midlife (ages 35–50) with elevated blood pressure. Using semi-structured focus groups and constructivist grounded theory, the study aims to generate culturally relevant insights to inform the co-design of a multilevel stress management intervention. The research is guided by the Social Determinants of Cardiovascular Health framework, emphasizing individual, interpersonal, community, and institutional factors that shape stress and cardiovascular risk. Data and Materials Data collection for this study is currently ongoing (as of January 2026). Upon completion, the following materials will be made available in this repository: Semi-structured focus group guide Final codebook developed during analysis Analytic framework and AI-assisted prompt design principles Due to confidentiality, raw transcripts will not be shared. Updates will be posted as materials become available

    Labels for 2D Cortical Image Segmentation

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    Dataset of manually drawn cortical labels for 2D brain images for validation of automated segmentation tools

    Temporal Field Perspective on Mass-Energy Relation”

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    This preprint explores a theoretical model using a temporal scalar field Starting from a minimal Lagrangian, we analyze the field generated by a moving point source and show how its properties relate to standard energy-momentum behavior in relativistic physics. The framework provides a field-theoretic perspective on how motion affects energy distribution and effective inertial respons

    Visibility on Wikipedia: Impacts of Photos on Bios

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    Wikipedia is the largest reference website, attracting over 1 billion unique visitors each month and an important source of information about high profile people. However, women’s biographies are less prominent in search engines and they may actually be read less than men’s articles—contributing to deeper inequalities across fields where visibility is important to success, like higher education. To learn more about the relationship between Wikipedia presence, searchability, and visibility and the pros and cons of having your image appear in Wikipedia, we’re surveying people who have (or could have) Wikipedia pages to understand how they think about the benefits and risks of increased exposure

    Laryngeal Sensitivity in Menopausal Women With and Without Hormone Replacement Therapy: A Scoping Review

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    This project registers a scoping review conducted in accordance with the PRISMA-ScR guidelines, aiming to map the available evidence on laryngeal sensitivity in menopausal women with and without hormone replacement therapy

    Mapping the Characteristics of Physical Therapists Who Order Diagnostic Imaging in Musculoskeletal Care: A Scoping Review of the Published Literature

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    This project is a scoping review of the published literature involving physical therapists (PTs) who independently order diagnostic imaging for patients with musculoskeletal disorders. PTs are increasingly functioning as first-contact and direct-access providers, some with privileges to independently order diagnostic imaging. Existing research suggest that PT-initiated imaging is safe and appropriate in most cases, however, the literature remains fragmented and has not been synthesized to describe clinician characteristics. Understanding who is exercising imaging ordering privileges is important for informing clinical practice, education, and policy. The review aims to map the characteristics of PTs who independently order diagnostic imaging, including years of experience, training, certifications, practice settings, and regulatory context. Additionally, study-level characteristics such as number of PTs and patients, imaging modalities ordered, and geographic regions represented will be summarized. Findings will be synthesized descriptively to identify patterns and gaps in the existing evidence base

    Cultivation theory and the effects of reality television on agreement with (stereotypical) gender-specific norms and traditional relationship norms

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    The overarching research question of the study is what effects the consumption of reality TV formats, explicitly "dating and relationship shows," has on young people (defined as 18-27 year-olds) regarding their agreement with (stereotypical) gender-specific norms and traditional relationship norms. Furthermore, the study aims to investigate how identification with the participants and the perceived degree of reality influence these effects. The theoretical foundation is cultivation theory

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