Comparison of the temporal properties of medium latency responses induced by cortical and peripheral stimulation

Purpose Difficulty in understanding spoken speech is a common complaint among aging adults, even when hearing impairment is absent. Correlational studies point to a relationship between age, auditory temporal processing (ATP), and speech perception but cannot demonstrate causality unlike training studies. In the current study, we test (a) the causal relationship between a spatial–temporal ATP task (temporal order judgment [TOJ]) and speech perception among aging adults using a training design and (b) whether improvement in aging adult speech perception is accompanied by improved self-efficacy. Method Eighty-two participants aged 60–83 years were randomly assigned to a group receiving (a) ATP training (TOJ) over 14 days, (b) non-ATP training (intensity discrimination) over 14 days, or (c) no training. Results The data showed that TOJ training elicited improvement in all speech perception tests, which was accompanied by increased self-efficacy. Neither improvement in speech perception nor self-efficacy was evident following non-ATP training or no training. Conclusions There was no generalization of the improvement resulting from TOJ training to intensity discrimination or generalization of improvement resulting from intensity discrimination training to speech perception. These findings imply that the effect of TOJ training on speech perception is specific and such improvement is not simply the product of generally improved auditory perception. It provides support for the idea that temporal properties of speech are indeed crucial for speech perception. Clinically, the findings suggest that aging adults can be trained to improve their speech perception, specifically through computer-based auditory training, and this may improve perceived self-efficacy.

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Spatial and temporal properties of thermal sensation

PsycEXTRA Dataset ◽

10.1037/e668292012-487 ◽

1976 ◽

Author(s):

Joseph C. Stevens

Keyword(s):

Thermal Sensation ◽

Temporal Properties

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Bayesian Inference in Human Time Perception

10.31234/osf.io/7fzbk ◽

2017 ◽

Author(s):

Darren Rhodes

Keyword(s):

Time Perception ◽

Likelihood Function ◽

Human Perception ◽

Future Research ◽

Temporal Properties ◽

History Of Research ◽

Psychophysical Testing ◽

History Of ◽

Fundamental Dimension ◽

Perception Of Time

Time is a fundamental dimension of human perception, cognition and action, as the perception and cognition of temporal information is essential for everyday activities and survival. Innumerable studies have investigated the perception of time over the last 100 years, but the neural and computational bases for the processing of time remains unknown. First, we present a brief history of research and the methods used in time perception and then discuss the psychophysical approach to time, extant models of time perception, and advancing inconsistencies between each account that this review aims to bridge the gap between. Recent work has advocated a Bayesian approach to time perception. This framework has been applied to both duration and perceived timing, where prior expectations about when a stimulus might occur in the future (prior distribution) are combined with current sensory evidence (likelihood function) in order to generate the perception of temporal properties (posterior distribution). In general, these models predict that the brain uses temporal expectations to bias perception in a way that stimuli are ‘regularized’ i.e. stimuli look more like what has been seen before. Evidence for this framework has been found using human psychophysical testing (experimental methods to quantify behaviour in the perceptual system). Finally, an outlook for how these models can advance future research in temporal perception is discussed.

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Faculty Opinions recommendation of Transformation of temporal properties between auditory midbrain and cortex in the awake Mongolian gerbil.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.1090776.544102 ◽

2007 ◽

Author(s):

Matthew Banks

Keyword(s):

Mongolian Gerbil ◽

Auditory Midbrain ◽

Temporal Properties

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Spatial and Temporal Properties of the Noise Field Observed in TAGEX 87

10.21236/ada242730 ◽

1990 ◽

Author(s):

Clark S. Penrod ◽

David E. Grant

Keyword(s):

Noise Field ◽

Temporal Properties

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Perception and the Temporal Properties of Speech.

10.21236/ada261439 ◽

1993 ◽

Author(s):

Peter C. Gordon

Keyword(s):

Temporal Properties

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A spatio-temporal specification language and its completeness & decidability

Journal of Cloud Computing Advances Systems and Applications ◽

10.1186/s13677-020-00209-3 ◽

2020 ◽

Vol 9 (1) ◽

Author(s):

Tengfei Li ◽

Jing Liu ◽

Haiying Sun ◽

Xiang Chen ◽

Lipeng Zhang ◽

...

Keyword(s):

Intelligent Transportation System ◽

Cyber Physical Systems ◽

Specification Language ◽

Finite Model ◽

Critical Systems ◽

Physical Systems ◽

Spatial Objects ◽

Temporal Properties ◽

Spatio Temporal ◽

Temporal Specification

AbstractIn the past few years, significant progress has been made on spatio-temporal cyber-physical systems in achieving spatio-temporal properties on several long-standing tasks. With the broader specification of spatio-temporal properties on various applications, the concerns over their spatio-temporal logics have been raised in public, especially after the widely reported safety-critical systems involving self-driving cars, intelligent transportation system, image processing. In this paper, we present a spatio-temporal specification language, STSL PC, by combining Signal Temporal Logic (STL) with a spatial logic S4 u, to characterize spatio-temporal dynamic behaviors of cyber-physical systems. This language is highly expressive: it allows the description of quantitative signals, by expressing spatio-temporal traces over real valued signals in dense time, and Boolean signals, by constraining values of spatial objects across threshold predicates. STSL PC combines the power of temporal modalities and spatial operators, and enjoys important properties such as finite model property. We provide a Hilbert-style axiomatization for the proposed STSL PC and prove the soundness and completeness by the spatio-temporal extension of maximal consistent set and canonical model. Further, we demonstrate the decidability of STSL PC and analyze the complexity of STSL PC. Besides, we generalize STSL to the evolution of spatial objects over time, called STSL OC, and provide the proof of its axiomatization system and decidability.

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Expressiveness and Nash Equilibrium in Iterated Boolean Games

ACM Transactions on Computational Logic ◽

10.1145/3439900 ◽

2021 ◽

Vol 22 (2) ◽

pp. 1-38

Author(s):

Julian Gutierrez ◽

Paul Harrenstein ◽

Giuseppe Perelli ◽

Michael Wooldridge

Keyword(s):

Nash Equilibrium ◽

Nash Equilibria ◽

Infinite Sequence ◽

Multi Agent Systems ◽

Temporal Logics ◽

Agent Systems ◽

Temporal Properties ◽

Multi Agent ◽

Game Theoretic ◽

Boolean Games

We define and investigate a novel notion of expressiveness for temporal logics that is based on game theoretic equilibria of multi-agent systems. We use iterated Boolean games as our abstract model of multi-agent systems [Gutierrez et al. 2013, 2015a]. In such a game, each agent has a goal , represented using (a fragment of) Linear Temporal Logic ( ) . The goal captures agent ’s preferences, in the sense that the models of represent system behaviours that would satisfy . Each player controls a subset of Boolean variables , and at each round in the game, player is at liberty to choose values for variables in any way that she sees fit. Play continues for an infinite sequence of rounds, and so as players act they collectively trace out a model for , which for every player will either satisfy or fail to satisfy their goal. Players are assumed to act strategically, taking into account the goals of other players, in an attempt to bring about computations satisfying their goal. In this setting, we apply the standard game-theoretic concept of (pure) Nash equilibria. The (possibly empty) set of Nash equilibria of an iterated Boolean game can be understood as inducing a set of computations, each computation representing one way the system could evolve if players chose strategies that together constitute a Nash equilibrium. Such a set of equilibrium computations expresses a temporal property—which may or may not be expressible within a particular fragment. The new notion of expressiveness that we formally define and investigate is then as follows: What temporal properties are characterised by the Nash equilibria of games in which agent goals are expressed in specific fragments of ? We formally define and investigate this notion of expressiveness for a range of fragments. For example, a very natural question is the following: Suppose we have an iterated Boolean game in which every goal is represented using a particular fragment of : is it then always the case that the equilibria of the game can be characterised within ? We show that this is not true in general.

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Grounding Personal Persistence

KRITERION – Journal of Philosophy ◽

10.1515/krt-2021-0011 ◽

2021 ◽

Vol 0 (0) ◽

Author(s):

Harriet E. Baber

Keyword(s):

Counterpart Theory ◽

Possible World ◽

Ordinary Objects ◽

Plausible Account ◽

Temporal Properties ◽

What Matters In Survival ◽

What Matters

Abstract Modal counterpart theory identifies a thing’s possibly being F with its having a counterpart that is F at another possible world; temporal counterpart theory identifies a thing’s having been F or going to be F, with its having a counterpart that is F at another time. Benovsky, J. 2015. “Alethic Modalities, Temporal Modalities, and Representation.” Kriterion: Journal of Philosophy 29: 18–34 in this journal endorses modal counterpart theory but holds that temporal counterpart theory is untenable because it does not license the ascription of the intuitively correct temporal properties to ordinary objects, and hence that we should understand ordinary objects, including persons, as transtemporal ‘worms’. I argue that the worm theory is problematic when it comes to accounting for what matters in survival and that temporal counterpart theory provides a plausible account of personal persistence.

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