Your search keyword '"Speed-accuracy trade-off"' showing total 694 results

1. Acute Effects of High-Intensity Resistance Exercise on Recognition of Relational Memory, Lactate, and Serum and Plasma Brain-Derived Neurotrophic Factor.

Author

Baumgartner, Nicholas W., Belbis, Michael D., Kargl, Christopher, Holmes, Michael J., Gavin, Timothy P., Hirai, Daniel M., and Shih-Chun Kao

Subjects

*RECOGNITION (Psychology), *EXERCISE physiology, *STATISTICAL power analysis, *T-test (Statistics), *DATA analysis, *DESCRIPTIVE statistics, *RESISTANCE training, *CROSSOVER trials, *BRAIN-derived neurotrophic factor, *MEMORY, *ANALYSIS of variance, *STATISTICS, *LACTIC acid, *DATA analysis software, *COGNITION, *BLOOD

Abstract

Acute aerobic exercise improves memory, but this phenomenon is understudied in response to resistance exercise (RE) despite evidence that RE-induced increases in lactate and brain-derived neurotrophic factor (BDNF) play mechanistic roles in memory performance. To determine the acute effect of RE on lactate, BDNF, and their associations with object and relational memory, blood lactate, and serum and plasma BDNF were taken from 36 adults (average age 23.6463.89 years; 18 woman) before and immediately after 42 minutes of high-intensity RE and a rest condition on counterbalanced days. Subjects then immediately studied a series of paired objects and completed object and relational recognition tasks. Results revealed a condition by trial interaction, previously studied objects were remembered less accurately following RE (d 5 0.66) but recognition occurred faster (d 5 0.28), indicating a speed-accuracy tradeoff following RE. There was no effect of either intervention on relational recognition performance. Lactate (d 5 3.68) and serum BDNF (d 5 0.74) increased following RE, whereas there was no timerelated change in lactate and serum BDNF following rest. However, changes in lactate and BDNF did not predict any measures of object (rs, 0.25, ps. 0.16) or relation recognition (rs, 0.28, ps. 0.13). Collectively, these findings suggest that acute highintensity RE selectively improves the processing speed of recognizing objects at the cost of less accurate recognition of previously studied objects. Furthermore, changes in object and relational memory performance are unlikely driven by acute increases in lactate or BDNF following high-intensity RE. [ABSTRACT FROM AUTHOR]

Published

2024

2. The effects of pressure on anticipatory postural adjustments during a jump shot in basketball.

Author

Konno, Kiyohiro, Itaya, Atsushi, Kizuka, Tomohiro, and Ono, Seiji

Subjects

*BASKETBALL players, *BASKETBALL shooting, *POSTURAL balance, *GROUND reaction forces (Biomechanics), *ANALYSIS of variance

Abstract

Anticipatory postural adjustments (APAs) play an important role in feedforward control of dynamic movements, such as jump shot performance in basketball. It is known that jump shot performance declines under pressure from a defender (shot blocker). Does pressure from a shot blocker affect the APAs of a jump shot in basketball? Is jump shot performance in basketball associated with APAs? Fourteen healthy male university basketball players performed jump shots under pressure and non-pressure (free) conditions by a shot blocker. Using a force plate, the APAs were defined as occurring until the point of thrust (TH) phase, and ground reaction force (GRF) and center of pressure (COP) at that moment were assessed. To assess jump shot performance, the maximum GRF during the TH phase (TH max), jumping height, and success score of the shot (accuracy score: AS) were measured by using the vertical component of the force plate. Two-way ANOVA examined the effects of the phase and condition on APA duration. The effects of pressure from a shot blocker on each variable (subjective pressure intensity, AS, GRF, and COP) were analyzed using a pairwise t-test or Wilcoxon signed-rank tests. Relationships between changes in jump shot performance and GRF or COP variables were assessed via Spearman's correlation analysis. Differences between the pressure and free conditions were denoted by p/f (pressure/free). The APA duration was shorter under the pressure condition compared to the free condition. The TH max and jump height values were greater under the pressure condition relative to the free condition. Across conditions, changes in COP sway velocity of the APA phase were significantly and negatively correlated with AS. The results of this study suggest that pressure from a shot blocker shortens APA duration and decreases jump shot performance. • We investigated whether APAs of basketball jump shot are influenced by pressure. • APA during jump shots in basketball were assessed using a force plate. • APA duration in the jump shot motion was shortened under the pressure condition. • A negative correlation was found between COP changes and shooting accuracy. [ABSTRACT FROM AUTHOR]

Published

2024

3. Perceptuomotor skill acquisition in a solo manual ball-and-beam task with varying accuracy requirements.

Author

Hafkamp, Marijn S. J., Casanova, Remy, and Bootsma, Reinoud J.

Subjects

MOTOR learning, BEAM dynamics, RANGE of motion of joints, INDIVIDUAL differences, DYNAMICAL systems

Abstract

In the manual ball-and-beam task, participants have to control a ball that is rolling continuously on a long and hand-held beam. Since the task can be performed individually, in a solo action setting, as well as collaboratively, in a (dyadic) joint action setting, it allows us to investigate how joint performances arise from individual performances, which we investigate in a series of interrelated studies. Here we focused on individual skill acquisition on the ball-and-beam task in the solo action setting, with the goal to characterize the behavioral dynamics that arise from learning to couple (ball motion) perception and (beam motion) action. By moving a beam extremity up and down to manipulate the beam's inclination angle, the task's objective was to roll the ball as fast as and accurately as possible between two indicated targets on the beam. Based on research into reciprocal aiming tasks, we hypothesized that the emergent dynamics of the beam's inclination angle would be constrained by the size of the targets, such that large targets would evoke a continuous beam movement strategy, while small targets would lead to a discrete beam movement strategy. 16 participants individually practiced the task in two separate six-block sessions. Each block consisted of one trial per target-size condition (small, medium and large). Overall, the number of target hits increased over trials, due to a larger range of motion of the beam's inclination angle, a stronger correlation between the ball and beam motion and a smaller variability of the beam motion. Contrary to our expectations, target size did not appreciably affect the shape of the beam movement patterns. Instead, we found stable inter-individual differences in the movement strategies adopted that were uncorrelated with the number of target hits on a trial. We concluded that multiple movement strategies may lead to success on the task, while individual skill acquisition was characterized by the refinement of behavioral dynamics that emerged in an early stage of learning. We speculate that such differences in individual strategies on the task may affect the interpersonal coordination that arises in joint-action performances on the task. [ABSTRACT FROM AUTHOR]

Published

2024

4. Independent Influences of Movement Distance and Visual Distance on Fitts' Law.

Author

Al-Fawakhiri, Naser and McDougle, Samuel D.

Abstract

Fitts' Law is one among a small number of psychophysical laws. However, a fundamental variable in Fitts' Law—the movement distance, D—confounds two quantities: The physical distance the effector has to move to reach a goal, and the visually perceived distance to that goal. While these two quantities are functionally equivalent in everyday motor behavior, decoupling them might improve our understanding of the factors that shape speed–accuracy tradeoffs. Here, we leveraged the phenomenon of visuomotor gain adaptation to de-confound movement and visual distance during goal-directed reaching. We found that movement distance and visual distance can influence movement times, supporting a variant of Fitts' Law that considers both. The weighting of movement versus visual distance was modified by restricting movement range and degrading visual feedback. These results may reflect the role of sensory context in early stages of motor planning. Public Significance Statement: You will automatically slow your movement when picking up a needle 5 inches away versus a handkerchief 3 inches away. This fact is elegantly formalized by Fitts' Law, which mathematically relates movement duration to movement difficulty. However, one of the fundamental variables in the law—the distance of a planned movement—is ambiguous: Is it the actual distance the hand must move that biases movement duration, or is it the visually perceived distance? We decoupled these variables, finding that Fitts' Law is shaped by both quantities, and that the influence of one versus the other may be related to the relevance of visual information. We believe our "addendum" to Fitts' Law is timely, as everyday motor behavior has become increasingly enmeshed with virtual environments that abstract our movements into digital realities. [ABSTRACT FROM AUTHOR]

Published

2024

5. Brain size mediates the choice of breeding strategy in the red‐backed shrike Lanius collurio.

Author

BIALAS, Joanna T., DYLEWSKI, Łukasz, and TOBOLKA, Marcin

Subjects

*SIZE of brain, *PASSERIFORMES, *BIRD breeding, *NATURAL selection, *CAPACITY (Law), *INFORMATION processing

Abstract

The brain size of vertebrates represents a trade‐off between natural selection for enhanced cognitive abilities and the energetic constraints of brain tissue production. Processing information efficiently can confer benefits, but it also entails time costs. Breeding strategies, encompassing timing of breeding onset and nest‐site selection, may be related to brain size. In this study, we aim to elucidate the relationship between brain size, breeding timing, nest‐site choice, and breeding success in the red‐backed shrike Lanius collurio. Our findings revealed that the timing of the first egg‐laying date was associated with female head size, with larger‐headed females tending to lay eggs later in the breeding season. Additionally, we observed that breeding success was positively correlated with increased nest concealment. However, this relationship was stronger in males with smaller heads. In turn, nest concealment was not related to head size but primarily influenced breeding onset. These results suggest that the choice of breeding strategy may be moderated by brain size, with differences between sexes. Larger‐headed females may invest more time in selecting nesting sites, leading to delayed breeding onset, while larger‐headed males may compensate for suboptimal nest concealment. Our study sheds light on the intricate interplay between brain size, breeding timing, nest‐site preferences, and breeding success in passerine birds, underscoring the potential role of cognitive capacity in shaping individual decision‐making processes. [ABSTRACT FROM AUTHOR]

Published

2024

6. Reconsidering the Trade-off Between Speed and Accuracy: The Role of Perceived Goal Progress Velocity

Author

Beck, James W., Scholer, Abigail A., Hughes, Jeffrey, and Phan, Vincent

Published

2024

7. Memory for linguistic features and the focus of attention: evidence from the dynamics of agreement inside DP

Author

Wagers, Matthew and McElree, Brian

Subjects

Linguistics, Biological Psychology, Cognitive and Computational Psychology, Language, Communication and Culture, Psychology, Language comprehension, grammatical agreement, number, working memory, focus of attention, speed-accuracy trade-off, language comprehension, speed-accuracy tradeoff, Biological psychology, Cognitive and computational psychology

Abstract

The amount of information that can be concurrently maintained in the focus of attention is strongly restricted (Broadbent, 1958). The goal of this study was to test whether this restriction was functionally significant for language comprehension. We examined the time course dynamics of processing determiner-head agreement in English demonstrative phrases. We found evidence that agreement processing was slowed when determiner and head were no longer adjacent, but separated by modifiers. We argue that some information is shunted nearly immediately from the focus of attention, necessitating its later retrieval. Plural, the marked feature value for number, exhibits better preservation in the focus of attention, however, than the unmarked value, singular.

Published

2022

8. Transcranial Stimulation and Decision-Making

Author

Csifcsák, Gábor, Mittner, Matthias, Forstmann, Birte U., Wassermann, Eric M., book editor, Peterchev, Angel V., book editor, Ziemann, Ulf, book editor, Lisanby, Sarah H., book editor, Siebner, Hartwig R., book editor, and Walsh, Vincent, book editor

Published

2024

9. An item response theory analysis of the matrix reasoning item bank (MaRs-IB).

Author

Zorowitz, Samuel, Chierchia, Gabriele, Blakemore, Sarah-Jayne, and Daw, Nathaniel D.

Subjects

*ITEM response theory, *COMPUTER adaptive testing, *SCIENTIFIC ability, *PSYCHOMETRICS, *TEST validity, *COGNITIVE ability

Abstract

Matrix reasoning tasks are among the most widely used measures of cognitive ability in the behavioral sciences, but the lack of matrix reasoning tests in the public domain complicates their use. Here, we present an extensive investigation and psychometric validation of the matrix reasoning item bank (MaRs-IB), an open-access set of matrix reasoning items. In a first study, we calibrate the psychometric functioning of the items in the MaRs-IB in a large sample of adult participants (N = 1501). Using additive multilevel item structure models, we establish that the MaRs-IB has many desirable psychometric properties: its items span a wide range of difficulty, possess medium-to-large levels of discrimination, and exhibit robust associations between item complexity and difficulty. However, we also find that item clones are not always psychometrically equivalent and cannot be assumed to be exchangeable. In a second study, we demonstrate how experimenters can use the estimated item parameters to design new matrix reasoning tests using optimal item assembly. Specifically, we design and validate two new sets of test forms in an independent sample of adults (N = 600). We find these new tests possess good reliability and convergent validity with an established measure of matrix reasoning. We hope that the materials and results made available here will encourage experimenters to use the MaRs-IB in their research. [ABSTRACT FROM AUTHOR]

Published

2024

10. Assessing the predictions from Posner's theory of phasic alertness using data from Los and Schut (2008).

Author

Klein, Raymond M.

Subjects

*MEMORY, *PSYCHOLOGY, *COGNITION, *RISK assessment, *THEORY, *ATTENTION, *REACTION time

Abstract

Alertness has been construed as one of three fundamental components of attention. When generated by a warning signal, phasic changes in alertness ubiquitously decrease reaction time. But how does it do so? Based on earlier findings, in 1975, Posner proposed a theory of phasic alertness with two postulates: (i) phasic alertness does not affect the accumulation of information; (ii) phasic alertness accelerates when a response based on the accumulating information will be generated. When targets are continuously presented, this theory predicts that alertness will reduce reaction at the expense of an increase in errors—that is, generate a speed–accuracy trade-off. Los and Schut, Cognitive Psychology, 57, 20–55, (2008), while endorsing Posner's theory, claimed to have failed to replicated the tell-tale trade-off reported by Posner et al. Memory and Cognition, 1, 2-12, (1973, Experiment 1). The primary goal of this commentary was to use all the data from Los and Schut to see if the predicted speed-accuracy trade-off would be verified or not. With the increased power, it was confirmed that the conditions that benefited the most in reaction time from alertness also had higher error rates. It is noteworthy that recent studies have generated replications and extensions of the methods and findings of Posner et al; thus, it appears that the empirical pattern predicted by Posner's theory of phasic alertness is relatively robust. [ABSTRACT FROM AUTHOR]

Published

2024

11. Exploration and social environment affect inbreeding avoidance in a small mammal.

Author

Vandal, Katherine, Garant, Dany, Bergeron, Patrick, and Réale, Denis

Subjects

*INBREEDING, *SOCIAL context, *MAMMALS, *CHIPMUNKS

Abstract

Individual exploration types are based on the cognitive speed-accuracy trade-off, which suggests that a higher speed of information acquisition is done by sacrificing information quality. In a mating context, fast exploration could thus increase the probability of finding mates at the cost of mating with kin or suboptimal partners. We tested this hypothesis by studying male mate choice patterns in a species with a scramble competition mating system. We used genotyping, localization by radio-collar, trapping, and repeated exploration measures from a long-term study on wild Eastern chipmunks (Tamias striatus). We predicted that, according to the speed-accuracy trade-off hypothesis, slower-thorough explorers should be choosier than faster-superficial ones, and thus avoid inbreeding. We found that slower males reproduced more often with less related females, but only on one site where variance in relatedness and female density were high. Males showed no preference for their mates' exploration type. Our results suggest that superficial exploration decreases male choosiness and increases the risk of inbreeding, but only under decreased mate search costs due to high variance in relatedness among mates (at high density). Our findings reveal exploration-related, among-individual variance in inbreeding, highlighting the complexity of mate choice, and showing that many aspects of an individual's life contribute to animal decision-making. [ABSTRACT FROM AUTHOR]

Published

2024

12. Age-related fornix decline predicts conservative response strategy-based slowing in perceptual decision-making

Author

Lauren Revie and Claudia Metzler-Baddeley

Subjects

Aging, Visuo-perceptual decision-making, Speed-accuracy trade-off, Drift diffusion model, Fornix, Magnetic resonance spectroscopy, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Aging leads to response slowing but the underpinning cognitive and neural mechanisms remain elusive. We modelled older and younger adults’ response times (RT) from a flanker task with a diffusion drift model (DDM) and employed diffusion-weighted magnetic resonance imaging and spectroscopy to study neurobiological predictors of DDM components (drift-rate, boundary separation, non-decision time). Microstructural indices were derived from white matter pathways involved in visuo-perceptual and attention processing [optic radiation, inferior and superior longitudinal fasciculi (ILF, SLF), fornix]. Estimates of metabolite concentrations [N-acetyl aspartate (NAA), glutamate (Glx), and γ-aminobutyric acid (GABA), creatine (Cr), choline (Cho), myoinositol (mI)] were measured from occipital (OCC), anterior cingulate (ACC) and posterior parietal cortices (PPC). Age-related increases in RT, boundary separation, and non-decision time were observed with response conservatism acounting for RT slowing. Aging was associated with reductions in white matter microstructure (lower fractional anisotropy and restricted signal fraction, larger diffusivities) and in metabolites (NAA in ACC and PPC, Glx in ACC). Regression analyses identified brain regions involved in top-down (fornix, SLF, ACC, PPC) and bottom-up (ILF, optic radiation OCC) processing as predictors for DDM parameters and RT. Fornix FA was the strongest predictor for increases in boundary separation (beta = −0.8) and mediated the effects of age on RT. These findings demonstrate that response slowing in visual discrimination is driven by the adoption of a more conservative response strategy. Age-related fornix decline may result in noisier communication of contextual information from the hippocampus to anterior decision-making regions and thus contribute to the conservative response strategy shift.

Published

2024

13. Individual Differences in Decision Strategy Relate to Neurochemical Excitability and Cortical Thickness.

Author

Filmer, Hannah L., Loughnan, Kathleen, Seeto, Jennifer X., Ballard, Timothy, Ehrhardt, Shane E., Shaw, Thomas B., Wards, Yohan, Rideaux, Reuben, Li-Ann Leow, Sewell, David K., and Dux, Paul E.

Subjects

*TRANSCRANIAL direct current stimulation, *INDIVIDUAL differences, *BRAIN stimulation, *PREFRONTAL cortex, *NEURAL stimulation

Abstract

The speed-accuracy trade-off (SAT), whereby faster decisions increase the likelihood of an error, reflects a cognitive strategy humans must engage in during the performance of almost all daily tasks. To date, computational modeling has implicated the latent decision variable of response caution (thresholds), the amount of evidence required for a decision to be made, in the SAT. Previous imaging has associated frontal regions, notably the left prefrontal cortex and the presupplementary motor area (pre-SMA), with the setting of such caution levels. In addition, causal brain stimulation studies, using transcranial direct current stimulation (tDCS), have indicated that while both of these regions are involved in the SAT, their role appears to be dissociable. tDCS efficacy to impact decision-making processes has previously been linked with neurochemical concentrations and cortical thickness of stimulated regions. However, to date, it is unknown whether these neurophysiological measures predict individual differences in the SAT, and brain stimulation effects on the SAT. Using ultra-high field (7T) imaging, here we report that instruction-based adjustments in caution are associated with both neurochemical excitability (the balance between GABA1 and glutamate) and cortical thickness across a range of frontal regions in both sexes. In addition, cortical thickness, but not neurochemical concentrations, was associated with the efficacy of left prefrontal and superior medial frontal cortex (SMFC) stimulation to modulate performance. Overall, our findings elucidate key neurophysiological predictors, frontal neural excitation, of individual differences in latent psychological processes and the efficacy of stimulation to modulate these. [ABSTRACT FROM AUTHOR]

Published

2023

14. Performance, control and variability of the forehand badminton smash during different spatio-temporal constraints

Author

Afzal, Idrees

Subjects

796.345, Speed-accuracy trade-off, Spatio-temporal constraints, Badminton smash, Shuttlecock speed, Movement Variability

Abstract

The forehand badminton smash is a multisegmented ballistic movement, which requires badminton players to synchronously intercept and rapidly direct the incoming shuttlecock to a desired location. The aims of the study were to 1) identify and compare speed-accuracy trade-off (SATO) relationships utilised by international badminton players when performing the forehand smash, during different spatio-temporal constraints and 2) examine the relationship between intra-individual movement variability and performance outcomes during different constraints. Fifty-two (29 male; 23 female) elite international badminton players from the BWF Glasgow world championships (2017) and one elite international men's singles player from the BWF All England open Championships (2016) participated in the study. Data were collected on practice courts using an 18 camera Vicon 3D motion capture system (400 Hz; OMG Plc, Oxford, UK). Findings indicate that when the target size was reduced, those players adopting a high inverse SATO relationship (reduction in shuttlecock speed, improvement in spatial accuracy) were able to achieve the highest levels of spatial accuracy (shuttlecock landing location). However, similarly high levels of spatial accuracy were also shown in the cluster of players who were able to consistently maintain close to maximum shuttlecock speed (low-inverse SATO). When using badminton tubes as a task constrained target, female athletes were able to smash at a significantly faster mean shuttlecock speed and with a smaller vertical racket angle during the forward swing phase in comparison to when a flat target (CC) was used. Findings show that players who were able to reduce racket head speed when target size was reduced, had lower variability in terms of impact location on the racket face. A case study of one international badminton player showed that joint angle variability in both proximal and distal segments was greater during the preparatory phase compared to both the backswing and forward swing phases, when comparing the spatial accuracy condition to the maximal speed condition. Shuttlecock speed and impact location on the racket face had a lower variability in the spatial accuracy condition. This study's adaptation of Fitts' Law (model) could serve useful for badminton coaches and sports scientists, in identifying performance baselines for SATO amongst international badminton players.

Published

2021

15. Accelerated American option pricing with deep neural networks

Author

David Anderson and Urban Ulrych

Subjects

american option pricing, deep neural networks, explainable artificial intelligence, parametric option pricing, speed-accuracy trade-off, market making, Applied mathematics. Quantitative methods, T57-57.97, Finance, HG1-9999

Abstract

Given the competitiveness of a market-making environment, the ability to speedily quote option prices consistent with an ever-changing market environment is essential. Thus, the smallest acceleration or improvement over traditional pricing methods is crucial to avoid arbitrage. We propose a method for accelerating the pricing of American options to near-instantaneous using a feed-forward neural network. This neural network is trained over the chosen (e.g., Heston) stochastic volatility specification. Such an approach facilitates parameter interpretability, as generally required by the regulators, and establishes our method in the area of eXplainable Artificial Intelligence (XAI) for finance. We show that the proposed deep explainable pricer induces a speed-accuracy trade-off compared to the typical Monte Carlo or Partial Differential Equation-based pricing methods. Moreover, the proposed approach allows for pricing derivatives with path-dependent and more complex payoffs and is, given the sufficient accuracy of computation and its tractable nature, applicable in a market-making environment.

Published

2023

16. Evidence for a common mechanism supporting invigoration of action selection and action execution.

Author

Kita, Kahori, Yue Du, and Haith, Adrian M.

Subjects

*VELOCITY, *SPEED

Abstract

The speed, or vigor, of our movements can vary depending on circumstances. For instance, the promise of a reward leads to faster movements. Reward also leads us to move with a lower reaction time, suggesting that the process of action selection can also be invigorated by reward. It has been proposed that invigoration of action selection and of action execution might occur through a common mechanism, and thus these aspects of behavior might be coupled. To test this hypothesis, we asked participants to make reaching movements to "shoot" through a target at varying speeds to assess whether moving more quickly was also associated with more rapid action selection. We found that, when participants were required to move with a lower velocity, the speed of their action selection was also significantly slowed. This finding was recapitulated in a further dataset in which participants determined their own movement speed, but had to move slowly to stop their movement inside the target. By reanalyzing a previous dataset, we also found evidence for the converse relationship between action execution and action selection; when pressured to select actions more rapidly, people also executed movements with higher velocity. Our results establish that invigoration of action selection and action execution vary in tandem with one another, supporting the hypothesis of a common underlying mechanism. [ABSTRACT FROM AUTHOR]

Published

2023

17. Robust parallel decision-making in neural circuits with nonlinear inhibition

Author

Kriener, Birgit, Chaudhuri, Rishidev, and Fiete, Ila R

Subjects

Neurosciences, Neurological, Decision Making, Models, Neurological, Nerve Net, Neural Networks, Computer, Neurons, Nonlinear Dynamics, neural circuits, optimal decision-making, speed-accuracy trade-off, noisy computation, speed–accuracy trade-off

Abstract

An elemental computation in the brain is to identify the best in a set of options and report its value. It is required for inference, decision-making, optimization, action selection, consensus, and foraging. Neural computing is considered powerful because of its parallelism; however, it is unclear whether neurons can perform this max-finding operation in a way that improves upon the prohibitively slow optimal serial max-finding computation (which takes [Formula: see text] time for N noisy candidate options) by a factor of N, the benchmark for parallel computation. Biologically plausible architectures for this task are winner-take-all (WTA) networks, where individual neurons inhibit each other so only those with the largest input remain active. We show that conventional WTA networks fail the parallelism benchmark and, worse, in the presence of noise, altogether fail to produce a winner when N is large. We introduce the nWTA network, in which neurons are equipped with a second nonlinearity that prevents weakly active neurons from contributing inhibition. Without parameter fine-tuning or rescaling as N varies, the nWTA network achieves the parallelism benchmark. The network reproduces experimentally observed phenomena like Hick's law without needing an additional readout stage or adaptive N-dependent thresholds. Our work bridges scales by linking cellular nonlinearities to circuit-level decision-making, establishes that distributed computation saturating the parallelism benchmark is possible in networks of noisy, finite-memory neurons, and shows that Hick's law may be a symptom of near-optimal parallel decision-making with noisy input.

Published

2020

18. SheepFaceNet: A Speed–Accuracy Balanced Model for Sheep Face Recognition.

Author

Li, Xiaopeng, Zhang, Yichi, and Li, Shuqin

Subjects

*HUMAN facial recognition software, *DEEP learning, *FACE perception, *SHEEP, *CONVOLUTIONAL neural networks, *COMPUTER vision, *FEATURE extraction

Abstract

Simple Summary: The use of computer vision technology has improved the effectiveness of individual sheep identification, but existing methods face challenges such as large parameter sizes, slow recognition speeds, and difficult deployment. To address this issue, we have made improvements and optimizations based on the Retinaface face recognition model to create a balanced speed-accuracy sheep face recognition model. The optimized model has fewer parameters, simpler computations, faster inference speeds, and higher recognition accuracy, making it well-suited for deployment on resource-constrained edge devices. This research is expected to promote the application of deep learning-based sheep face recognition methods in production. The recognition of sheep faces based on computer vision has improved the efficiency and effectiveness of individual sheep identification, providing technical support for the development of smart farming. However, current recognition models have problems such as large parameter sizes, slow recognition speed, and difficult deployment. Therefore, this paper proposes an efficient and fast basic module called Eblock and uses it to build a lightweight sheep face recognition model called SheepFaceNet, which achieves the best balance between speed and accuracy. SheepFaceNet includes two modules: SheepFaceNetDet for detection and SheepFaceNetRec for recognition. SheepFaceNetDet uses Eblock to construct the backbone network to enhance feature extraction capability and efficiency, designs a bidirectional FPN layer (BiFPN) to enhance geometric location ability, and optimizes the network structure, which affects inference speed, to achieve fast and accurate sheep face detection. SheepFaceNetRec uses Eblock to construct the feature extraction network, uses ECA channel attention to improve the effectiveness of feature extraction, and uses multi-scale feature fusion to achieve fast and accurate sheep face recognition. On our self-built sheep face dataset, SheepFaceNet recognized 387 sheep face images per second with an accuracy rate of 97.75%, achieving an advanced balance between speed and accuracy. This research is expected to further promote the application of deep-learning-based sheep face recognition methods in production. [ABSTRACT FROM AUTHOR]

Published

2023

19. The Effect of Speed-Accuracy Trade-Off on Attribute-Framing Bias.

Author

Kreiner, Hamutal and Gamliel, Eyal

Abstract

Attribute-framing bias reflects people's tendency to evaluate objects framed positively more favorably than the same objects framed negatively. Although biased by the framing valence, evaluations are nevertheless calibrated to the magnitude of the target attribute. In three experiments that manipulated magnitudes in different ways, we examined to what extent encouraging speeded or accurate responses affected the bias of evaluations and their calibration. Results revealed a dissociation between the biasing effect of framing valence and the calibrated effect of magnitude. The bias was increased in the speeded conditions relative to the accurate conditions. However, the calibration was affected by the speed-accuracy manipulation only in negative and not in positive framing conditions. We discuss the advantage of fuzzy-trace theory in explaining these results, suggesting that gist representations elicit the bias, whereas verbatim representations allow calibration. However, the relative contributions of these representations to evaluation vary with task demands such as speed-accuracy requirements. [ABSTRACT FROM AUTHOR]

Published

2023

20. Lower grade students tend to give up early in multimedia learning.

Author

Zhao, Fang, Gaschler, Robert, Wagner, Inga, and Schnotz, Wolfgang

Subjects

*LEARNING, *MENTAL imagery, *INSTRUCTIONAL systems design, *MENTAL models theory (Communication), *SECONDARY schools

Abstract

This study examined the relationship between grade and the ability of text-picture integration in terms of task completion and the pattern of using textual and pictorial information. Children (N = 144) from secondary schools were recruited from grade 5 and grade 8. Analyzing the time spent with the multimedia unit prior to an incorrect response, this study suggests that 5th graders tend to give up relatively early compared to 8th graders. Furthermore, early incorrect responses were more prevalent among students of the non-academic track and were predicted by a low proportion of fixations on the text in mental model construction and on the picture in adaptive mental model specification. An inappropriate approach of integrating text and picture can thus be the reason for giving up early. The work provides a basis for (1) automated feedback during the course of working on a multimedia unit. (2) Instructional design should be adapted to the characteristics of student groups to support text-picture integration and to avoid giving up early. [ABSTRACT FROM AUTHOR]

Published

2023

21. Effects of Stimulus Timing on the Acquisition of an Olfactory Working Memory Task in Head-Fixed Mice.

Author

Reuschenbach, Josefine, Reinert, Janine K., Xiaochen Fu, and Izumi Fukunaga

Subjects

*SHORT-term memory, *REWARD (Psychology), *STIMULUS & response (Psychology), *DECAY constants, *MICE

Abstract

Acquisition of a behavioral task is influenced by many factors. The relative timing of stimuli is such a factor and is especially relevant for tasks relying on short-term memory, like working memory paradigms, because of the constant evolution and decay of neuronal activity evoked by stimuli. Here, we assess two aspects of stimulus timing on the acquisition of an olfactory delayed nonmatch-to-sample (DNMS) task. We demonstrate that head-fixed male mice learn to perform the task more quickly when the initial training uses a shorter sample-test odor delay without detectable loss of generalizability. Unexpectedly, we observed a slower task acquisition when the odor-reward interval was shorter. The effect of early reward timing was accompanied by a shortening of reaction times and more frequent sporadic licking. Analysis of this result using a drift-diffusion model indicated that a primary consequence of early reward delivery is a lowered threshold to act, or a lower decision bound. Because an accurate performance with a lower decision bound requires greater discriminability in the sensory representations, this may underlie the slower learning rate with early reward arrival. Together, our results reflect the possible effects of stimulus timing on stimulus encoding and its consequence on the acquisition of a complex task. [ABSTRACT FROM AUTHOR]

Published

2023

22. Same same but different: Subtle but consequential differences between two measures to linearly integrate speed and accuracy (LISAS vs. BIS).

Author

Liesefeld, Heinrich R. and Janczyk, Markus

Subjects

*STIMULUS & response (Psychology), *SPEED, *EXPERIMENTAL psychology

Abstract

Condition-specific speed–accuracy trade-offs (SATs) are a pervasive issue in experimental psychology, because they sometimes render impossible an unambiguous interpretation of experimental effects on either mean response times (mean RT) or percentage of correct responses (PC). For between-participants designs, we have recently validated a measure (Balanced Integration Score, BIS) that integrates standardized mean RT and standardized PC and thereby controls for cross-group variation in SAT. Another related measure (Linear Integrated Speed–Accuracy Score, LISAS) did not fulfill this specific purpose in our previous simulation study. Given the widespread and seemingly interchangeable use of the two measures, we here illustrate the crucial differences between LISAS and BIS related to their respective choice of standardization variance. We also disconfirm the recently articulated hypothesis that the differences in the behavior of the two combined performance measures observed in our previous simulation study were due to our choice of a between-participants design and we demonstrate why a previous attempt to validate BIS (and LISAS) for within-participants designs has failed, pointing out several consequential issues in the respective simulations and analyses. In sum, the present study clarifies the differences between LISAS and BIS, demonstrates that the choice of the variance used for standardization is crucial, provides further guidance on the calculation and use of BIS, and refutes the claim that BIS is not useful for attenuating condition-specific SATs in within-participants designs. [ABSTRACT FROM AUTHOR]

Published

2023

23. Accelerated American option pricing with deep neural networks.

Author

Anderson, David and Ulrych, Urban

Subjects

PRICING, ARTIFICIAL neural networks, ARTIFICIAL intelligence, MARKET volatility, PARTIAL differential equations

Abstract

Given the competitiveness of a market-making environment, the ability to speedily quote option prices consistent with an ever-changing market environment is essential. Thus, the smallest acceleration or improvement over traditional pricing methods is crucial to avoid arbitrage. We propose a method for accelerating the pricing of American options to near-instantaneous using a feed-forward neural network. This neural network is trained over the chosen (e.g., Heston) stochastic volatility specification. Such an approach facilitates parameter interpretability, as generally required by the regulators, and establishes our method in the area of eXplainable Artificial Intelligence (XAI) for finance. We show that the proposed deep explainable pricer induces a speed-accuracy trade-off compared to the typical Monte Carlo or Partial Differential Equation-based pricing methods. Moreover, the proposed approach allows for pricing derivatives with path-dependent and more complex payoffs and is, given the sufficient accuracy of computation and its tractable nature, applicable in a market-making environment. [ABSTRACT FROM AUTHOR]

Published

2023

24. Influence of Target Width and Distance on Postural Adjustments in a Fencing Lunge.

Author

Akbaş, Anna, Marszałek, Wojciech, Brachman, Anna, and Juras, Grzegorz

Subjects

CENTER of mass, FENCING, FENCES, TIBIALIS anterior, FENCERS, POSTURAL muscles

Abstract

The aim of this study was to examine whether target width and target distance influence the planning phase of a fencing lunge (early and anticipatory postural adjustments) as well as the execution phase of a fencing lunge. Eight elite female fencers participated in the study. The displacement of the center of foot pressure, muscle activity of the tibialis anterior, and kinematics of center of mass were recorded using force plates. The results show that target width and distance have no effect on early and anticipatory postural adjustments as well as the acceleration and velocity of the center of mass at the moment of foot-off. However, a greater target distance was associated with a greater max center of mass acceleration and velocity, and larger target width resulted in a greater max center of mass acceleration during lunging (p < 0.05). We suppose that the effect of task parameters on preparing a fencing lunge may be mitigated due to the specific technique adopted by expert fencers and the ballistic nature of a fencing lunge. [ABSTRACT FROM AUTHOR]

Published

2023

25. Repeatable parental risk taking across manipulated levels of predation threat: no individual variation in plasticity.

Author

Salazar, Stephen M., Hlebowicz, Kasper, Komdeur, Jan, and Korsten, Peter

Subjects

*PREDATION, *LIFE history theory, *REPRODUCTION, *BLUE tit, *NEST predation, *INDIVIDUAL differences

Abstract

Individuals respond adaptively to their environment. Yet, they may differ in their responses even when confronted with the same environmental challenge. Several complementary conceptual frameworks suggest that within populations among-individual variation in life history strategies aligns not only with individuals' propensities to take risks across different situations but also with their sensitivity to variation in environmental cues. Risk-prone individuals, suggested to invest more in current reproduction at the cost of their future reproductive prospects, are predicted to be less sensitive to environmental variation than risk-averse individuals. We tested this prediction in a population of breeding blue tits, Cyanistes caeruleus , by confronting them with different levels of predation threat at their nests and recording their latency to resume brood provisioning after the removal of the predator stimulus. We presented taxidermic woodpecker, Dendrocopos major (a common brood predator) and sparrowhawk, Accipiter nisus (a common adult predator) mounts at each nest, respectively representing low and high levels of threat to adult blue tits. As a nonpredator control stimulus, we presented a blackbird, Turdus merula , mount. We found that on average parents took longer to resume provisioning after presentation of a sparrowhawk than a woodpecker or blackbird. Furthermore, individual latency responses across all threat levels taken together were repeatable. However, despite the population level plastic adjustment to the level of predation threat, we found no evidence for among-individual variation in plasticity. Instead, individual differences in responses were roughly maintained across all levels of threat. While our findings show that individuals differ in their level of risk taking, in the high-stakes and ecologically relevant context of predation risk during parental care, commonly held expectations about among-individual variation in behavioural plasticity were not met. • Individuals are predicted to differ in their adjustment to risky situations. • Breeding blue tits adjust their risk-taking responses to predation threat levels. • Risk taking was repeatable within and across levels of threat. • Individuals did not differ in their plastic adjustment to varying threat levels. [ABSTRACT FROM AUTHOR]

Published

2023

26. Problems when fixing the response bias parameter z in drift diffusion analysis: A Commentary on Stafford et al. (2020).

Author

Alexandrowicz, Rainer W. and Gula, Bartosz

Subjects

*DRIFT diffusion models, *ESTIMATION bias, *MAXIMUM likelihood statistics, *BEHAVIORAL research, *POWER tools

Abstract

In a simulation study, Stafford et al. (Behavior Research Methods, 52, 2142–2155, 2020) explored the effect of sample size on detecting group differences in ability in the presence of speed–accuracy trade-offs using the Drift Diffusion Model (DDM) and introduced an online tool to perform a power analysis. They found that the DDM approach was superior to analyzing the observed response times and response accuracies alone. In their simulation, they applied the EZ method to estimate the model parameters. In this article, we demonstrate that the EZ method, which cannot estimate the response bias parameter of the DDM, causes severe estimation bias for all parameters if the true response bias is not 0.5. Moreover, the bias patterns differ between EZ and the equivalent maximum likelihood estimation with z fixed at 0.5. This should be taken into consideration when using the otherwise excellent power analysis tool for experimental designs, in which z≠ 0.5 cannot be ruled out or even stipulate it. [ABSTRACT FROM AUTHOR]

Published

2023

27. Priors Inspired by Speed-Accuracy Trade-Offs for Incremental Learning of Probabilistic Movement Primitives

Author

Schäle, Daniel, Stoelen, Martin F., Kyrkjebø, Erik, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Woeginger, Gerhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Fox, Charles, editor, Gao, Junfeng, editor, Ghalamzan Esfahani, Amir, editor, Saaj, Mini, editor, Hanheide, Marc, editor, and Parsons, Simon, editor

Published

2021

28. Speed versus accuracy instructions in the response time concealed information test

Author

Till Lubczyk, Gáspár Lukács, and Ulrich Ansorge

Subjects

Deception, Concealed information test, Response time, Speed–accuracy trade-off, Decision making, Consciousness. Cognition, BF309-499

Abstract

Abstract The response time concealed information test (RT-CIT) can reveal that a person recognizes a relevant item (probe) among other, irrelevant items, based on slower responding to the probe compared to the irrelevant items. Thereby, if this person is concealing knowledge about the relevance of this item (e.g., recognizing it as a murder weapon), this deception can be unveiled. In the present paper, we examined the impact of a speed versus accuracy instruction: Examinees (N = 235) were either presented with instructions emphasizing a focus on speed, with instructions emphasizing a focus on accuracy, or with no particular speed or accuracy instructions at all. We found that although participants responded to the probe and the irrelevants marginally faster when they had received instructions emphasizing speed, there was no significant difference between RTs of the different experimental groups and crucially no significant difference between the probe–irrelevant RT differences either. This means that such instructions are unlikely to benefit the RT-CIT, but it also suggests that related deliberate manipulation (focusing on speed on or accuracy) is unlikely to decrease the efficiency of the RT-CIT—contributing further evidence to the RT-CIT’s resistance to faking.

Published

2022

29. ANTASID: A Novel Temporal Adjustment to Shannon’s Index of Difficulty for Quantifying the Perceived Difficulty of Uncontrolled Pointing Tasks

Author

Mohammad Ridwan Kabir, Mohammad Ishrak Abedin, Rizvi Ahmed, Hasan Mahmud, and Md. Kamrul Hasan

Subjects

Pointing tasks, Fitts’s law, index of difficulty, speed-accuracy trade-off, contextual interaction, uncontrolled experiment, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Shannon’s Index of Difficulty ( $ID$ ), reputable for quantifying the perceived difficulty of pointing tasks as a logarithmic relationship between movement-amplitude ( $A$ ) and target-width ( $W$ ), is used for modeling the corresponding observed movement-times ( $MT_{O}$ ) in such tasks in controlled experimental setup. However, real-life pointing tasks are both spatially and temporally uncontrolled, being influenced by factors, such as – human aspects, subjective behavior, the context of interaction, the inherent speed-accuracy trade-off, where, emphasizing accuracy compromises speed of interaction and vice versa. Effective target-width ( $W_{e}$ ) is considered as spatial adjustment for compensating accuracy. However, no significant adjustment exists in the literature for compensating speed in different contexts of interaction in these tasks. As a result, without any temporal adjustment, the true difficulty of an uncontrolled pointing task may be inaccurately quantified using Shannon’s $ID$ . To verify this, we propose ANTASID (A Novel Temporal Adjustment to Shannon’s ID) formulation with detailed performance analysis. We hypothesized a temporal adjustment factor ( $t$ ) as a binary logarithm of $MT_{O}$ , compensating for speed due to contextual differences and minimizing the non-linearity between movement-amplitude and target-width. Considering spatial and/or temporal adjustments to $ID$ , we conducted regression analysis using our own and Benchmark datasets in both controlled and uncontrolled scenarios of pointing tasks with a generic mouse. ANTASID formulation showed significantly superior fitness values and throughput in all the scenarios while reducing the standard error. Furthermore, the quantification of $ID$ with ANTASID varied significantly compared to the classical formulations of Shannon’s $ID$ , validating the purpose of this study.

Published

2022

30. Effect of Different Shooting Techniques in Floorball on Accuracy and Velocity in Experienced Male Floorball Players.

Author

van den Tillaar, Roland

Subjects

SHOOTING techniques, VELOCITY, ACCURACY, BODY mass index, STATURE, ATHLETES, SPORTS

Abstract

The aims of this study were to investigate the effect of four different shooting techniques (slap, sweeper, drag, and wrist shots) in floorball on velocity and accuracy in experienced floorball players, and to investigate whether target height has an influence on these shooting performances. Ten experienced male floorball players (age, 21 ± 4 years; body mass, 81.5 ± 10 kg; body height, 1.85 ± 0.07 m; and years of experience, 6.9 ± 3.1 years) shot as hard as possible and tried to hit the upper and lower targets with four different shooting techniques from a 4-m distance. The main findings were that shooting techniques and target height could influence ball velocity in the expected way from slap to sweeper shots and drag to wrist shots, whereas accuracy did not change, and thereby, did not follow any velocity-accuracy trade-off like Fitts' law. [ABSTRACT FROM AUTHOR]

Published

2018

31. Effective Throughput Analysis of Different Task Execution Strategies for Mid-Air Fitts' Tasks in Virtual Reality.

Author

Batmaz, Anil Ufuk and Stuerzlinger, Wolfgang

Subjects

TASK analysis, MATHEMATICAL models

Abstract

Fitts' law and throughput based on effective measures are two mathematical models frequently used to analyze human motor performance in a standardized pointing task, e.g., to compare the performance of input and output devices. Even though pointing has been deeply studied in 2D, it is not well understood how different task execution strategies affect throughput in pointing in 3D virtual environments. In this work, we examine the effective throughput measure, claimed to be invariant to task execution strategies, in Virtual Reality (VR) systems with three such strategies, "as fast, as precise, and as fast and as precise as possible" for ray casting and virtual hand interaction, by re-analyzing data from a 3D pointing ISO 9241-411 study. Results show that effective throughput is not invariant for different task execution strategies in VR, which also matches a more recent 2D result. Normalized speed vs. accuracy curves also did not fit the data. We thus suggest that practitioners, developers, and researchers who use MacKenzie's effective throughput formulation should consider our findings when analyzing 3D user pointing performance in VR systems. [ABSTRACT FROM AUTHOR]

Published

2022

32. Haste makes waste: shorter time for nest-site assessment leads to higher nest predation in a cavity nester.

Author

Sonerud, Geir A.

Subjects

BIRD nests, NEST predation, BIRDHOUSES, SPRING, BIOLOGICAL fitness, WOOD, OWLS

Abstract

A fundamental problem for any animal is how to weigh the benefits of making a rapid decision against the costs of making a poor decision, because time for detecting and evaluating all options is often restricted. For nest-site selection in birds, an important cost of a speedy decision would be nest predation, which is a major factor lowering reproductive success. I tested whether shorter time available for assessment of nest sites would lead to a decision with higher probability of nest predation. Where boreal owls (Aegolius funereus) had nested successfully in a box in the previous season, I manipulated nest box availability by offering a dyad of nest boxes. One box (kept or exchanged) was in the original nest tree and one box (new or taken from the original tree) was in a new tree for the season, each box containing either "post-nesting residue" from the successful nesting or new wood shavings. Hence, the owls could assess the risk of nest predation at a familiar site relative to that at a new site. The timing of nest box installation and relocation was such that time for assessment varied among localities, from the whole non-breeding season to just a few days prior to laying in spring. Owls that had had longer time in which to make their assessment and selection were less likely to have their nest predated by pine martens (Martes martes). Boreal owls are non-migratory and probably gained information on the relative safety of the two options by a Bayesian-like updating process in the days, weeks or months before the decision had to be made. A migratory cavity-nester exposed to the same landscape of nest predation would be more time-constrained and forced to rely on the win-stay loose-shift tactic, which underperforms relative to Bayesian-like updating. [ABSTRACT FROM AUTHOR]

Published

2022

33. Speed–Accuracy Trade-Off? Not So Fast: Marginal Changes in Speed Have Inconsistent Relationships With Accuracy in Real-World Settings.

Author

Domingue, Benjamin W., Kanopka, Klint, Stenhaug, Ben, Sulik, Michael J., Beverly, Tanesia, Brinkhuis, Matthieu, Circi, Ruhan, Faul, Jessica, Liao, Dandan, McCandliss, Bruce, Obradović, Jelena, Piech, Chris, Porter, Tenelle, Consortium, Project iLEAD, Soland, James, Weeks, Jon, Wise, Steven L., and Yeatman, Jason

Subjects

TIME management, RAYLEIGH-Taylor instability, REACTION time, SPEED

Abstract

The speed–accuracy trade-off (SAT) suggests that time constraints reduce response accuracy. Its relevance in observational settings—where response time (RT) may not be constrained but respondent speed may still vary—is unclear. Using 29 data sets containing data from cognitive tasks, we use a flexible method for identification of the SAT (which we test in extensive simulation studies) to probe whether the SAT holds. We find inconsistent relationships between time and accuracy; marginal increases in time use for an individual do not necessarily predict increases in accuracy. Additionally, the speed–accuracy relationship may depend on the underlying difficulty of the interaction. We also consider the analysis of items and individuals; of particular interest is the observation that respondents who exhibit more within-person variation in response speed are typically of lower ability. We further find that RT is typically a weak predictor of response accuracy. Our findings document a range of empirical phenomena that should inform future modeling of RTs collected in observational settings. [ABSTRACT FROM AUTHOR]

Published

2022

34. Imposing demands on precision influences the hands differently during alternated discrete touching

Author

Alexandre Jehan Marcori, Pedro Monteiro, and Victor Hugo Alves Okazaki

Subjects

motor control, handedness, asymmetry, speed-accuracy trade-off, Sports, GV557-1198.995

Published

2021

35. Optimal response in decision making : an experimental investigation of decision strategies

Author

Biscione, Valerio

Subjects

153.8, decision-making, perception, speed-accuracy trade-off, decision-strategies, reward-rate, Piéron’s Law

Abstract

A decision process can be conceptually separated into a perceptual process and a decision strategy. The former includes all the different mechanisms that contribute to accumulate information relevant to the decision, whereas the decision strategy determines when enough information has been accumulated and a decision can be taken. Although perceptual processes have been extensively investigated in the last decades, decision strategies have received comparatively little attention. The main aim of this work is to fill this gap by analysing four decision strategies with two different experimental paradigms. We also focus on ancillary decision-making topics, such as the effect of stimulus intensity, foreperiod duration, payoff manipulation, and the response distributions in the rate domain. We initially performed a qualitative analysis of decision strategies by using a classic reaction time tasks on human participants while assuming the Drift Diffusion Model, one of the many models used for simple and fast decisions, as the perceptual process. We found that increasing the time of the trial does not have a relevant effect on the response, which is in contrast with some of the decision rules considered here. However, this approach is limited by the implicit assumption of a perceptual model that would result in different prediction for the decision strategies. We suggest the use of a different experimental design, called the EXACT Paradigm, which allows us to analyse decision strategies without having to assume any perceptual process. We tested the feasibility of such approach and applied it to several experimental studies, including a direct comparison with a classic reaction time task. Overall, two of the four decision strategies (modified Reward Rate and Reward/Accuracy) appeared to model the data satisfactorily. We discuss several ways in which the EXACT Paradigm can be used for expanding our knowledge in the field of decision-making.

Published

2017

36. Feature Attention as a Control Mechanism for the Balance of Speed and Accuracy in Visual Search

Author

Griffith, Thom, Townend, Florence J., Baker, Sophie-Anne, and Lepora, Nathan F.

Published

2023

37. Effects of Audiovisual Interactions on Working Memory Task Performance—Interference or Facilitation.

Author

He, Yang, Guo, Zhihua, Wang, Xinlu, Sun, Kewei, Lin, Xinxin, Wang, Xiuchao, Li, Fengzhan, Guo, Yaning, Feng, Tingwei, Zhang, Junpeng, Li, Congchong, Tian, Wenqing, Liu, Xufeng, and Wu, Shengjun

Subjects

*SHORT-term memory, *VISUAL memory, *TASK performance, *COGNITIVE load, *STIMULUS & response (Psychology), *VISUAL perception

Abstract

(1) Background: The combined n-back + Go/NoGo paradigm was used to investigate whether audiovisual interactions interfere with or facilitate WM. (2) Methods: College students were randomly assigned to perform the working memory task based on either a single (visual or auditory) or dual (audiovisual) stimulus. Reaction times, accuracy, and WM performance were compared across the two groups to investigate effects of audiovisual interactions. (3) Results: With low cognitive load (2-back), auditory stimuli had no effect on visual working memory, whereas visual stimuli had a small effect on auditory working memory. With high cognitive load (3-back), auditory stimuli interfered (large effect size) with visual WM, and visual stimuli interfered (medium effect size) with auditory WM. (4) Conclusions: Audiovisual effects on WM follow the resource competition theory, and the cognitive load of a visual stimulus is dominated by competition; vision always interferes with audition, and audition conditionally interferes with vision. With increased visual cognitive load, competitive effects of audiovisual interactions were more obvious than those with auditory stimuli. Compared with visual stimuli, audiovisual stimuli showed significant interference only when visual cognitive load was high. With low visual cognitive load, the two stimulus components neither facilitated nor interfered with the other in accordance with a speed–accuracy trade-off. [ABSTRACT FROM AUTHOR]

Published

2022

38. Imperfect integration: Congruency between multiple sensory sources modulates decision-making processes.

Author

Krzemiński, Dominik and Zhang, Jiaxiang

Subjects

*DECISION making, *INFORMATION resources, *ANGULAR distance, *SIGNAL-to-noise ratio

Abstract

Decision-making on the basis of multiple information sources is common. However, to what extent such decisions differ from those with a single source remains unclear. We combined cognitive modelling and neural-mass modelling to characterise the neurocognitive process underlying perceptual decision-making with single or double information sources. Ninety-four human participants performed binary decisions to discriminate the coherent motion direction averaged across two independent apertures. Regardless of the angular distance of the apertures, separating motion information into two apertures resulted in a reduction in accuracy. Our cognitive and neural-mass modelling results are consistent with the hypotheses that the addition of the second information source led to a lower signal-to-noise ratio of evidence accumulation with two congruent information sources, and a change in the decision strategy of speed–accuracy trade-off with two incongruent sources. Thus, our findings support a robust behavioural change in relation to multiple information sources, which have congruency-dependent impacts on selective decision-making subcomponents. [ABSTRACT FROM AUTHOR]

Published

2022

39. SheepFaceNet: A Speed–Accuracy Balanced Model for Sheep Face Recognition

Author

Xiaopeng Li, Yichi Zhang, and Shuqin Li

Subjects

sheep face recognition, lightweight model, convolutional neural network, speed-accuracy trade-off, reparameterization, Veterinary medicine, SF600-1100, Zoology, QL1-991

Abstract

The recognition of sheep faces based on computer vision has improved the efficiency and effectiveness of individual sheep identification, providing technical support for the development of smart farming. However, current recognition models have problems such as large parameter sizes, slow recognition speed, and difficult deployment. Therefore, this paper proposes an efficient and fast basic module called Eblock and uses it to build a lightweight sheep face recognition model called SheepFaceNet, which achieves the best balance between speed and accuracy. SheepFaceNet includes two modules: SheepFaceNetDet for detection and SheepFaceNetRec for recognition. SheepFaceNetDet uses Eblock to construct the backbone network to enhance feature extraction capability and efficiency, designs a bidirectional FPN layer (BiFPN) to enhance geometric location ability, and optimizes the network structure, which affects inference speed, to achieve fast and accurate sheep face detection. SheepFaceNetRec uses Eblock to construct the feature extraction network, uses ECA channel attention to improve the effectiveness of feature extraction, and uses multi-scale feature fusion to achieve fast and accurate sheep face recognition. On our self-built sheep face dataset, SheepFaceNet recognized 387 sheep face images per second with an accuracy rate of 97.75%, achieving an advanced balance between speed and accuracy. This research is expected to further promote the application of deep-learning-based sheep face recognition methods in production.

Published

2023

40. Increased cerebrovascular reactivity in selected brain regions after extracranial-intracranial bypass improves the speed and accuracy of visual cancellation in patients with severe steno-occlusive disease: a preliminary study.

Author

Shimonaga, Koji, Hama, Seiji, Furui, Akira, Yanagawa, Akiko, Kandori, Akihiko, Atsumori, Hirokazu, Yamawaki, Shigeto, Matsushige, Toshinori, and Tsuji, Toshio

Subjects

*CEREBRAL revascularization, *CEREBRAL hemispheres, *MULTIPLE regression analysis, *BIVARIATE analysis, *ARITHMETIC mean, *SPEED

Abstract

The effect of the change in cerebrovascular reactivity (CVR) in each brain area on cognitive function after extracranial-intracranial bypass (EC-IC bypass) was examined. Eighteen patients who underwent EC-IC bypass for severe unilateral steno-occlusive disease were included. Single-photon emission CT (SPECT) for evaluating CVR and the visual cancellation (VC) task were performed before and after surgery. The accuracy of VC was expressed by the arithmetic mean of the age-matched correct answer rate and the accurate answer rate, and the averages of the time (time score) and accuracy (accuracy score) of the four VC subtests were used. The speed of VC tended to be slower, whereas accuracy was maintained before surgery. The EC-IC bypass improved CVR mainly in the cerebral hemisphere on the surgical side. On bivariate analysis, when CVR increased post-operatively, accuracy improved on both surgical sides, but the time score was faster on the left and slower on the right surgical side. Stepwise multiple regression analysis showed that the number of the brain regions associated with the time score was 5 and that associated with the accuracy score was 4. In the hemodynamically ischemic brain, processing speed might be adjusted so that accuracy would be maintained based on the speed-accuracy trade-off mechanism that may become engaged separately in the left and right cerebral hemispheres when performing VC. When considering the treatment for hemodynamic ischemia, the relationship between CVR change and the speed-accuracy trade-off in each brain region should be considered. [ABSTRACT FROM AUTHOR]

Published

2022

41. IMPOSING DEMANDS ON PRECISION INFLUENCES THE HANDS DIFFERENTLY DURING ALTERNATED DISCRETE TOUCHING.

Author

JEHAN MARCORI, ALEXANDRE, MARTINS MONTEIRO, PEDRO HENRIQUE, and ALVES OKAZAKI, VICTOR HUGO

Subjects

TASK performance, VISUAL perception, MOTOR ability, WILCOXON signed-rank test, CHRONOMETERS

Abstract

Purpose. How demands of precision influence the performance during alternated discrete touching is not well established in the literature. Hence, we compared both hands performance during alternated touching, manipulating the precision demand. Methods. Overall, 23 right-handed adults participated in this study. the first task consisted of alternated touching with a pencil on both sides of a blank paper, performing as fast as possible, considering the first touch as reference for the next ones. Subsequently, touch dispersion and width were measured, and circular targets were drawn with those proportions. the second task consisted of performing as many hits as possible inside those targets. Apart from the delimitated target, increasing precision demand, the task parameters were equal. Results. Movement time increased and the number of touches decreased from the first to the second task. However, the preferred hand displayed greater reductions in performance. Conclusions. the perceptual constraint of adding a visual target affects motor control parameters in alternated touching, causing decrements in performance in both hands, but more evidently in the preferred right hand. [ABSTRACT FROM AUTHOR]

Published

2022

42. Does Emotion Modulation Influence Speed–Accuracy Trade-off in Numerical Data Entry Task?

Author

Shukla, Shanu, Salve, Shrikant, Yammiyavar, Pradeep, Howlett, Robert James, Series Editor, Jain, Lakhmi C., Series Editor, and Chakrabarti, Amaresh, editor

Published

2019

43. Computational modeling reveals strategic and developmental differences in the behavioral impact of reward across adolescence.

Author

Fosco, Whitney D., Meisel, Samuel N., Weigard, Alexander, White, Corey N., and Colder, Craig R.

Subjects

*ADOLESCENCE, *REWARD (Psychology), *RESPONSE styles (Examinations), *KEY performance indicators (Management), *TEST validity, *TEENAGERS, *EXTERNALIZING behavior

Abstract

Studies of reward effects on behavior in adolescence typically rely on performance metrics that confound myriad cognitive and non‐cognitive processes, making it challenging to determine which process is impacted by reward. The present longitudinal study applied the diffusion decision model to a reward task to isolate the influence of reward on response caution from influences of processing and motor speed. Participants completed three annual assessments from early to middle adolescence (N = 387, 55% female, Mage = 12.1 at Wave 1; Mage = 13.1 at Wave 2, Mage = 14.1 at Wave 3) and three annual assessments in late adolescence (Mages = 17.8, 18.9, 19.9). At each assessment, participants completed a two‐choice reaction time task under conditions of no‐reward and a block in which points were awarded for speeded accuracy. Reward reduced response caution at all waves, as expected, but had a greater impact as teens moved from early to middle adolescence. Simulations to identify optimal response caution showed that teens were overly cautious in early adolescence but became too focused on speed over accuracy by middle adolescence. By late adolescence, participants adopted response styles that maximized reward. Further, response style was associated with both internalizing and externalizing symptoms in early‐to‐middle adolescence, providing evidence for the construct validity of a diffusion model approach in this developmental period. [ABSTRACT FROM AUTHOR]

Published

2022

44. Interindividual variation in the use of social information during learning in honeybees.

Author

Tait, Catherine and Naug, Dhruba

Subjects

*SOCIAL learning, *BEE colonies, *INDIVIDUAL differences, *LEARNING, *HONEYBEES, *TASK performance, *BEES

Abstract

Slow-fast differences in cognition among individuals have been proposed to be an outcome of the speed-accuracy trade-off in decision-making. Based on the different costs associated with acquiring information via individual and social learning, we hypothesized that slow-fast cognitive differences would also be tied to the adoption of these different learning modes. Since foragers in honeybee colonies likely have both these information acquisition modes available to them, we chose to test them for interindividual differences in individual and social learning. By measuring performance on a learning task with and without a social cue and quantifying learning rate and maximum accuracy in these two tasks, our results show the existence of a speed-accuracy trade-off in both the individual and the social learning contexts. However, the trade-off is steeper during individual learning, which was slower than social learning but led to higher accuracy. Most importantly, our results also show that bees that attained high accuracy on the individual learning task had low accuracy on the social learning task and vice versa. We discuss how these two information acquisition strategies tie to slow-fast differences in cognitive phenotypes and how they might contribute to division of labour and social behaviour. [ABSTRACT FROM AUTHOR]

Published

2022

45. Speed versus accuracy instructions in the response time concealed information test.

Author

Lubczyk, Till, Lukács, Gáspár, and Ansorge, Ulrich

Subjects

SPEED, EXPERIMENTAL groups, DECEPTION

Abstract

The response time concealed information test (RT-CIT) can reveal that a person recognizes a relevant item (probe) among other, irrelevant items, based on slower responding to the probe compared to the irrelevant items. Thereby, if this person is concealing knowledge about the relevance of this item (e.g., recognizing it as a murder weapon), this deception can be unveiled. In the present paper, we examined the impact of a speed versus accuracy instruction: Examinees (N = 235) were either presented with instructions emphasizing a focus on speed, with instructions emphasizing a focus on accuracy, or with no particular speed or accuracy instructions at all. We found that although participants responded to the probe and the irrelevants marginally faster when they had received instructions emphasizing speed, there was no significant difference between RTs of the different experimental groups and crucially no significant difference between the probe–irrelevant RT differences either. This means that such instructions are unlikely to benefit the RT-CIT, but it also suggests that related deliberate manipulation (focusing on speed on or accuracy) is unlikely to decrease the efficiency of the RT-CIT—contributing further evidence to the RT-CIT's resistance to faking. [ABSTRACT FROM AUTHOR]

Published

2022

46. Response bias in numerosity perception at early judgments and systematic underestimation.

Author

Kılıç, Aslı and İnan, Aslı Bahar

Subjects

*STIMULUS & response (Psychology), *MENTAL representation, *RANDOM numbers

Abstract

Mental number representation relies on mapping numerosity based on nonsymbolic stimuli to symbolic magnitudes. It is known that mental number representation builds on a logarithmic scale, and thus numerosity decisions result in underestimation. In the current study, we investigated the temporal dynamics of numerosity perception in four experiments by employing the response-deadline SAT procedure. We presented random number of dots and required participants to make a numerosity judgment by comparing the perceived number of dots to 50. Using temporal dynamics in numerosity perception allowed us to observe a response bias at early decisions and a systematic underestimation at late decisions. In all three experiments, providing feedback diminished the magnitude of underestimation, whereas in Experiment 3 the absence of feedback resulted in greater underestimation errors. These results were in accordance with the findings that suggested feedback is necessary for the calibration of the mental number representation. [ABSTRACT FROM AUTHOR]

Published

2022

47. Stereophotogrammetry measurement of kinematic target effect as speed accuracy benchmark indicator for kicking performance in martial arts.

Author

WĄSIK, JACEK, MOSLER, DARIUSZ, ORTENBURGER, DOROTA, and GÓRA, TOMASZ

Abstract

Purpose: The development of a motion capture system leads to fast and accessible ways of precise testing of athletes and their motor abilities. The striking performance in martial arts and combat sports requires measuring velocity in the context of successful contact with the target. The aim of this study was to present the novel kinematic target effect coefficient and its possible use as a speed accuracy benchmark of performance based on the example of taekwon-do roundhouse and frontal kicks. Methods: The stereophotogrammetry motion capture setup consists of 10 infrared cameras (NIR Vicon MX-T40). Analysis includes 180 kicks (roundhouse and frontal kicks) performed by 15 adult participants on a master level in taekwon-do. The kinematic target effect comparison includes two targets – a training shield and a table tennis ball hanging from the ceiling. Markers were placed on the lower extremities of participants. Spatial-temporal variables were registered for both kicking legs, techniques, and target types. Results: Both roundhouse and frontal kicks revealed target and marker dependent differences during its execution. The kinematic target effect coefficient values differ for the specific marker and kick type. Conclusion: The wireless motion capture systems could be helpful in the training process and an athlete’s evaluation before sports competitions. [ABSTRACT FROM AUTHOR]

Published

2021

48. Correction: On the Utility of Integrated Speed-Accuracy Measures when Speed-Accuracy Trade-Off is Present

Author

André Vandierendonck

Subjects

integrated speed-accuracy measures, speed-accuracy trade-off, drift-diffusion model, Consciousness. Cognition, BF309-499

Abstract

This article details a correction to: Vandierendonck, A. (2021). On the Utility of Integrated Speed-Accuracy Measures when Speed-Accuracy Trade-off is Present. 'Journal of Cognition', 4(1), 22. DOI: 'https://doi.org/10.5334/joc.154'

Published

2021

49. Investigation of the parameters affecting Fitts' law on reciprocal arm movements

Author

Takashi OYAMA and Teruaki ITO

Subjects

fitts’ law, motor control, arm movement, movement accuracy, speed-accuracy trade-off, signal-dependent noise, Mechanical engineering and machinery, TJ1-1570, Engineering machinery, tools, and implements, TA213-215

Abstract

The speed-accuracy trade-off in motor tasks is well-known. An error within a movement can increase with the speed of the movement. Fitts’ law formulizes the relationship between speed and accuracy. Several studies have confirmed the validity of Fitts’ law in various types of motor tasks. However, the reason why this law can provide a good regression of the movement duration on the speed and accuracy of the movement has not been clarified. In this study, the influence of the dynamic parameters of arms, the magnitude of the signal-dependent noise, and a criterion of movement smoothness on the Fitts’ law was investigated to gain insight into the speed–accuracy trade-off. Computer simulations of a reciprocal arm movement task were examined. Moreover, it was attempted to interpret the speed–accuracy trade-off by mathematically approximating a human arm as a mass–damper system. Consequently, it was revealed that positive viscosity did not affect the motor control based on the Fitts' law, whereas negative viscosity prevented obedience to the law.

Published

2021

50. Hick's law equivalent for reaction time to individual stimuli.

Author

Kvålseth, Tarald O.

Subjects

*REACTION time, *ECONOMIC stimulus, *PROBABILITY theory

Abstract

Hick's law, one of the few law‐like relationships involving human performance, expresses choice reaction time as a linear function of the mutual information between the stimulus and response events. However, since this law was first proposed in 1952, its validity has been challenged by the fact that it only holds for the overall reaction time (RT) across all the stimuli, and does not hold for the reaction time (RTi) for each individual stimulus. This paper introduces a new formulation in which RTi is a linear function of (1) the mutual information between the event that stimulus i occurs and the set of all potential response events and (2) the overall mutual information for all stimuli and responses. Then Hick's law for RT follows as the weighted mean of each side of the RTi equation using the stimulus probabilities as the weights. The new RTi equation incorporates the important speed–accuracy trade‐off characteristic. When the performance is error‐free, RTi becomes a linear function of two entropies as measures of stimulus uncertainty or unexpectancy. Reanalysis of empirical data from a variety of sources provide support for the new law‐like relationship. [ABSTRACT FROM AUTHOR]

Published

2021