scholarly article | Q13442814 |
P356 | DOI | 10.1111/1467-9280.00342 |
P8608 | Fatcat ID | release_plexxn6znvdebbhsg7bteudjti |
P698 | PubMed publication ID | 11437307 |
P5875 | ResearchGate publication ID | 11904366 |
P50 | author | C. Randy Gallistel | Q5006805 |
Elizabeth M. Brannon | Q29166162 | ||
Courtney Wusthoff | Q73894908 | ||
P2093 | author name string | J Gibbon | |
P2860 | cites work | Ordering of the numerosities 1 to 9 by monkeys | Q28286244 |
Time required for judgements of numerical inequality | Q34244272 | ||
Preverbal and verbal counting and computation | Q35759416 | ||
Ratio versus difference comparators in choice | Q41468697 | ||
Probability Relations within Response Sequences under Ratio Reinforcement | Q42849000 | ||
Cross-linguistic regularities in the frequency of number words | Q43658218 | ||
Non-verbal numerical cognition: from reals to integers. | Q51645609 | ||
Numerosity discrimination: both time and number matter. | Q52036831 | ||
Temporal integration in duration and number discrimination. | Q52265265 | ||
A mode control model of counting and timing processes. | Q52280510 | ||
Use of numbers by a chimpanzee. | Q52670132 | ||
Scalar expectancy theory and Weber's law in animal timing | Q56269024 | ||
P433 | issue | 3 | |
P304 | page(s) | 238-243 | |
P577 | publication date | 2001-05-01 | |
P1433 | published in | Psychological Science | Q7256367 |
P1476 | title | Numerical subtraction in the pigeon: evidence for a linear subjective number scale | |
P478 | volume | 12 |
Q50654310 | 123s and ABCs: developmental shifts in logarithmic-to-linear responding reflect fluency with sequence values. |
Q47434291 | A Perceptual-Like Population-Coding Mechanism of Approximate Numerical Averaging |
Q42925773 | A physiologically-inspired model of numerical classification based on graded stimulus coding |
Q60629413 | A texture-processing model of the 'visual sense of number' |
Q34048115 | Abstract number and arithmetic in preschool children |
Q50424167 | An emergentist perspective on the origin of number sense. |
Q38425884 | Approximate quantities and exact number words: dissociable systems |
Q36920915 | Are there rapid feedback effects on Approximate Number System acuity? |
Q50438328 | Children's intuitive sense of number develops independently of their perception of area, density, length, and time. |
Q48611615 | Chimpanzees remember the results of one-by-one addition of food items to sets over extended time periods. |
Q48410311 | Coding of cognitive magnitude: compressed scaling of numerical information in the primate prefrontal cortex. |
Q51948824 | Cognitive Representation of Negative Numbers |
Q35142900 | Cognitive neuroscience: numerate neurons |
Q51877739 | Compressed scaling of abstract numerosity representations in adult humans and monkeys. |
Q30579466 | Compressive mapping of number to space reflects dynamic encoding mechanisms, not static logarithmic transform |
Q42103382 | Computation of relative numerosity of circular dot textures |
Q35029142 | Core multiplication in childhood |
Q28235062 | Counting on neurons: the neurobiology of numerical competence |
Q42168032 | Counting or chunking? Mathematical and heuristic abilities in patients with corticobasal syndrome and posterior cortical atrophy. |
Q52000350 | Development of numerical estimation in young children. |
Q35805035 | Developmental neuroscience of time and number: implications for autism and other neurodevelopmental disabilities |
Q64988249 | Digital dissection of the head of the rock dove (Columba livia) using contrast-enhanced computed tomography. |
Q44274645 | Dissociating number line estimations from underlying numerical representations |
Q33323354 | Effects of development and enculturation on number representation in the brain |
Q38166373 | Empirical and theoretical studies on number comparison: design parameters and research questions |
Q58760203 | Evidence for magnitude representations of social hierarchies: Size and distance effects |
Q30453520 | Examining the presence and determinants of operational momentum in childhood |
Q34643780 | Immediacy versus anticipated delay in the time-left experiment: a test of the cognitive hypothesis |
Q34822858 | Individual differences in non-verbal number acuity correlate with maths achievement |
Q51900862 | Is the growth of subjective time in humans a linear or nonlinear function of real time? |
Q51904831 | Is there an internal association of numbers to hands? The task set influences the nature of the SNARC effect. |
Q21562134 | Large number discrimination by mosquitofish |
Q34358577 | Large-number addition and subtraction by 9-month-old infants. |
Q37469667 | Mapping human temporal and parietal neuronal population activity and functional coupling during mathematical cognition |
Q28687053 | Measuring acuity of the approximate number system reliably and validly: the evaluation of an adaptive test procedure |
Q38842718 | Mental Numerosity Line in the Human's Approximate Number System |
Q26822068 | Methodological aspects to be considered when measuring the approximate number system (ANS) - a research review |
Q51898539 | Moving along the number line: operational momentum in nonsymbolic arithmetic. |
Q48798548 | Multiple spatial representations of number: evidence for co-existing compressive and linear scales. |
Q37677454 | Non-symbolic division in childhood |
Q33776613 | Non-symbolic halving in an Amazonian indigene group |
Q30461317 | Nonsymbolic, approximate arithmetic in children: abstract addition prior to instruction |
Q51624432 | Nonverbal arithmetic in humans: light from noise. |
Q42603067 | Nonverbal estimation during numerosity judgements by adult humans |
Q57723262 | Novel Inversions in Auditory Sequences Provide Evidence for Spontaneous Subtraction of Time and Number |
Q38086507 | Numerical architecture |
Q61798979 | Numerical cognition in honeybees enables addition and subtraction |
Q90728925 | On the linear representation of numbers: evidence from a new two-numbers-to-two positions task |
Q28660860 | One, two, three, four, nothing more: an investigation of the conceptual sources of the verbal counting principles |
Q48521701 | Overlapping and distinct neural representations of numbers and verbal transitive series. |
Q48855419 | Pointing to numbers and grasping magnitudes. |
Q42245859 | Possible dendritic contribution to unimodal numerosity tuning and weber-fechner law-dependent numerical cognition |
Q38490246 | PsiMLE: A maximum-likelihood estimation approach to estimating psychophysical scaling and variability more reliably, efficiently, and flexibly |
Q51908571 | Ratio abstraction by 6-month-old infants. |
Q27324406 | Ratio abstraction over discrete magnitudes by newly hatched domestic chicks (Gallus gallus). |
Q30466822 | Representation of numerosity in posterior parietal cortex |
Q52108975 | Representation of time in time-place learning. |
Q51934569 | Scalar effects in the visual discrimination of numerosity by pigeons. |
Q89964731 | Searching for the Critical p of Macphail's Null Hypothesis: The Contribution of Numerical Abilities of Fish |
Q33607066 | Symbol addition by monkeys provides evidence for normalized quantity coding. |
Q57799926 | Task-irrelevant spatial dividers facilitate counting and numerosity estimation |
Q33658989 | The association between higher education and approximate number system acuity |
Q41571829 | The computation of relative numerosity, size and density |
Q34196218 | The development of numerical estimation: evidence for multiple representations of numerical quantity |
Q38362430 | The neuroscience of time and number: untying the gordian knot |
Q50231770 | The relationship between non-symbolic multiplication and division in childhood. |
Q50577587 | Theoretical implications of quantitative properties of interval timing and probability estimation in mouse and rat. |
Q37639516 | Thinking chickens: a review of cognition, emotion, and behavior in the domestic chicken |
Q47586912 | Through neural stimulation to behavior manipulation: a novel method for analyzing dynamical cognitive models |
Q44069886 | Two-digit number processing: holistic, decomposed or hybrid? A computational modelling approach |
Q37500997 | Unbounding the mental number line-new evidence on children's spatial representation of numbers |
Q51160462 | Understanding the origin of number sense: a review of fish studies. |
Q46155866 | Variability signatures distinguish verbal from nonverbal counting for both large and small numbers |
Q96640507 | Visual sense of number vs. sense of magnitude in humans and machines |
Q28682002 | What counts for 'counting'? Chimpanzees, Pan troglodytes, respond appropriately to relevant and irrelevant information in a quantity judgment task |
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