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Publication DateBrain and Cognition, ISSN 0278-2626, 2010, Volume 74, Issue 3, pp. 262 - 272
The perception and processing of temporal information are tasks the brain must continuously perform. These include measuring the duration of stimuli, storing...
Temporal bisection task | Human | Decision making | Model | Perception | Timing | Meta-analysis | LOCATION | DURATIONS | STIMULI | ADULTS | NEUROSCIENCES | PSYCHOLOGY, EXPERIMENTAL | CHILDREN | SUBJECTIVE TIME | MEMORY | DISCRIMINATION | SIMILARITY | Brain | Cognitive Processes | Recall (Psychology) | Brain Hemisphere Functions | Memory | Time | Meta Analysis | Experiments | Stimuli | Decision Making | Neuropsychological Tests | Psychomotor Performance | Mental Recall | Time Factors | Humans | Models, Psychological | Recognition (Psychology) | Brain - physiology | Meta-Analysis | Temporal Bisection Task
Temporal bisection task | Human | Decision making | Model | Perception | Timing | Meta-analysis | LOCATION | DURATIONS | STIMULI | ADULTS | NEUROSCIENCES | PSYCHOLOGY, EXPERIMENTAL | CHILDREN | SUBJECTIVE TIME | MEMORY | DISCRIMINATION | SIMILARITY | Brain | Cognitive Processes | Recall (Psychology) | Brain Hemisphere Functions | Memory | Time | Meta Analysis | Experiments | Stimuli | Decision Making | Neuropsychological Tests | Psychomotor Performance | Mental Recall | Time Factors | Humans | Models, Psychological | Recognition (Psychology) | Brain - physiology | Meta-Analysis | Temporal Bisection Task
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Loading RightsAnimal Cognition, ISSN 1435-9448, 1/2016, Volume 19, Issue 1, pp. 15 - 30
In the temporal bisection task, participants classify experienced stimulus durations as short or long based on their temporal similarity to previously learned...
Life Sciences | Interval timing | Behavioral Sciences | Zoology | Optimality | Temporal bisection | Choice behavior | Diffusion model | Psychology Research | DIFFUSION-MODEL ANALYSIS | INFORMATION | HUMANS | RESPONSE BIAS | CONTEXT | DURATION BISECTION | CHOICE | ZOOLOGY | DECISION-MAKING | MEMORY | DISCRIMINATION | BEHAVIORAL SCIENCES | Animals | Choice Behavior | Mice, Inbred C57BL | Probability | Male | Decision Making - physiology | Mice | Time Perception - physiology | Reaction Time - physiology | Analysis | Animal behavior | Rodents | Animal cognition
Life Sciences | Interval timing | Behavioral Sciences | Zoology | Optimality | Temporal bisection | Choice behavior | Diffusion model | Psychology Research | DIFFUSION-MODEL ANALYSIS | INFORMATION | HUMANS | RESPONSE BIAS | CONTEXT | DURATION BISECTION | CHOICE | ZOOLOGY | DECISION-MAKING | MEMORY | DISCRIMINATION | BEHAVIORAL SCIENCES | Animals | Choice Behavior | Mice, Inbred C57BL | Probability | Male | Decision Making - physiology | Mice | Time Perception - physiology | Reaction Time - physiology | Analysis | Animal behavior | Rodents | Animal cognition
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Loading RightsJournal of Experimental Child Psychology, ISSN 0022-0965, 10/2001, Volume 80, Issue 2, pp. 142 - 159
Children aged 3, 5, and 8 years received training on a temporal bisection task, with standard short and long durations being presented as visual stimuli...
timing behavior | temporal bisection | scalar timing | children | Timing behavior | Children | Temporal bisection | Scalar timing | RESPONSE TYPE | PERFORMANCE | PSYCHOLOGY, DEVELOPMENTAL | HUMANS | TIME-ESTIMATION | PSYCHOLOGY, EXPERIMENTAL | PERCEPTION | 3-YEAR-OLD | DEVELOPMENTAL-CHANGES | STIMULUS | YOUNG-CHILDREN | DURATION | Visual Stimuli | Performance Factors | Age Differences | Theories | Time Blocks | Models | Psychophysics | Cognitive Development | Concept Formation | Age Factors | Humans | Child, Preschool | Models, Psychological | Female | Male | Reaction Time | Visual Perception | Time Perception - physiology | Child | Teaching | Visual perception in children | Usage | Scalar field theory | Physiological aspects | Visual acuity | Child psychology | Research | Time perception
timing behavior | temporal bisection | scalar timing | children | Timing behavior | Children | Temporal bisection | Scalar timing | RESPONSE TYPE | PERFORMANCE | PSYCHOLOGY, DEVELOPMENTAL | HUMANS | TIME-ESTIMATION | PSYCHOLOGY, EXPERIMENTAL | PERCEPTION | 3-YEAR-OLD | DEVELOPMENTAL-CHANGES | STIMULUS | YOUNG-CHILDREN | DURATION | Visual Stimuli | Performance Factors | Age Differences | Theories | Time Blocks | Models | Psychophysics | Cognitive Development | Concept Formation | Age Factors | Humans | Child, Preschool | Models, Psychological | Female | Male | Reaction Time | Visual Perception | Time Perception - physiology | Child | Teaching | Visual perception in children | Usage | Scalar field theory | Physiological aspects | Visual acuity | Child psychology | Research | Time perception
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Loading RightsJournal of Experimental Psychology: Animal Learning and Cognition, ISSN 2329-8456, 10/2018, Volume 44, Issue 4, pp. 396 - 408
Using signal detection theory, we investigated whether human participants represent time linearly or logarithmically in a bisection task. Participants saw a...
Scalar expectancy theory | Signal detection theory | Interval timing | Bisection procedure | Individual differences in timing | LOCATION | TIME-LEFT | bisection procedure | STIMULUS-DURATION | PSYCHOLOGY, EXPERIMENTAL | PSYCHOLOGY | ZOOLOGY | signal detection theory | interval timing | individual differences in timing | BEHAVIORAL SCIENCES | scalar expectancy theory | PSYCHOLOGY, BIOLOGICAL | Signal Detection, Psychological - physiology | Correlation of Data | Humans | Male | Psychometrics | Normal Distribution | Young Adult | Time Factors | Adolescent | Adult | Female | Time Perception - physiology | Photic Stimulation
Scalar expectancy theory | Signal detection theory | Interval timing | Bisection procedure | Individual differences in timing | LOCATION | TIME-LEFT | bisection procedure | STIMULUS-DURATION | PSYCHOLOGY, EXPERIMENTAL | PSYCHOLOGY | ZOOLOGY | signal detection theory | interval timing | individual differences in timing | BEHAVIORAL SCIENCES | scalar expectancy theory | PSYCHOLOGY, BIOLOGICAL | Signal Detection, Psychological - physiology | Correlation of Data | Humans | Male | Psychometrics | Normal Distribution | Young Adult | Time Factors | Adolescent | Adult | Female | Time Perception - physiology | Photic Stimulation
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Loading RightsJournal of Experimental Psychology: Human Perception and Performance, ISSN 0096-1523, 10/2005, Volume 31, Issue 5, pp. 919 - 938
Two experiments examined identification and bisection of tones varying in temporal duration (Experiment 1) or frequency (Experiment 2). Absolute identification...
Duration | Identification | Range frequency theory | Timing | Temporal bisection | TASK | range frequency theory | timing | INTENSITY PERCEPTION | HUMANS | TIME | ABSOLUTE IDENTIFICATION | PSYCHOLOGY, EXPERIMENTAL | PSYCHOLOGY | duration | temporal bisection | identification | MEMORY | DISCRIMINATION | SIMILARITY | JUDGMENTS | RANGE | Novelty (Stimulus Dimension) | Statistical Distributions | Acoustics | Scientific Research | Stimuli | Mathematical Models | Incidence | Models, Theoretical | Psychoacoustics | Time Perception | Pitch Discrimination | Sound Spectrography | Humans | Attention | Discrimination Learning | Research | Auditory perception | Ears & hearing | Mathematical models | Frequencies | Sensory perception | Psychology
Duration | Identification | Range frequency theory | Timing | Temporal bisection | TASK | range frequency theory | timing | INTENSITY PERCEPTION | HUMANS | TIME | ABSOLUTE IDENTIFICATION | PSYCHOLOGY, EXPERIMENTAL | PSYCHOLOGY | duration | temporal bisection | identification | MEMORY | DISCRIMINATION | SIMILARITY | JUDGMENTS | RANGE | Novelty (Stimulus Dimension) | Statistical Distributions | Acoustics | Scientific Research | Stimuli | Mathematical Models | Incidence | Models, Theoretical | Psychoacoustics | Time Perception | Pitch Discrimination | Sound Spectrography | Humans | Attention | Discrimination Learning | Research | Auditory perception | Ears & hearing | Mathematical models | Frequencies | Sensory perception | Psychology
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Loading RightsNeuropsychologia, ISSN 0028-3932, 01/2013, Volume 51, Issue 2, pp. 191 - 196
Decision processes related to interval timing are commonly examined using the duration bisection procedure—a well-established timekeeping task in which...
Temporal memory | ERP | Interval timing | Duration bisection | TIME | MECHANISMS | COGNITION | NEUROSCIENCES | PSYCHOLOGY, EXPERIMENTAL | CORTEX | EVENT-RELATED POTENTIALS | STIMULUS | BEHAVIORAL SCIENCES | INDEXES | Humans | Probability | Evoked Potentials - physiology | Male | Electroencephalography | Reaction Time - physiology | Psychophysics | Brain - physiology | Young Adult | Time Factors | Brain Mapping | Female | Time Perception - physiology | Photic Stimulation | Judgment - physiology
Temporal memory | ERP | Interval timing | Duration bisection | TIME | MECHANISMS | COGNITION | NEUROSCIENCES | PSYCHOLOGY, EXPERIMENTAL | CORTEX | EVENT-RELATED POTENTIALS | STIMULUS | BEHAVIORAL SCIENCES | INDEXES | Humans | Probability | Evoked Potentials - physiology | Male | Electroencephalography | Reaction Time - physiology | Psychophysics | Brain - physiology | Young Adult | Time Factors | Brain Mapping | Female | Time Perception - physiology | Photic Stimulation | Judgment - physiology
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Loading RightsPsychological Science, ISSN 0956-7976, 11/2008, Volume 19, Issue 11, pp. 1103 - 1109
A fundamental assumption underlying research in translational neuroscience is that animal models represent many of the same neurocognitive mechanisms and...
Animals | Geometric mean | Humans | Memory | Pigeons | Mental stimulation | Scalars | Mice | Cognition | Research Articles | Experimental psychology | ATTENTION | PSYCHOLOGY, MULTIDISCIPLINARY | STIMULUS-DURATION | TEMPORAL BISECTION | MEMORY | SCALAR EXPECTANCY-THEORY | TIME | MECHANISMS | INTERVALS | IDENTIFICATION | CLOCK | Decision Making | Species Specificity | Middle Aged | Male | Young Adult | Time Perception | Adult | Female | Aged | Columbidae | Neurosciences | Timing issues | Animal cognition | Comparative studies | Animal behavior
Animals | Geometric mean | Humans | Memory | Pigeons | Mental stimulation | Scalars | Mice | Cognition | Research Articles | Experimental psychology | ATTENTION | PSYCHOLOGY, MULTIDISCIPLINARY | STIMULUS-DURATION | TEMPORAL BISECTION | MEMORY | SCALAR EXPECTANCY-THEORY | TIME | MECHANISMS | INTERVALS | IDENTIFICATION | CLOCK | Decision Making | Species Specificity | Middle Aged | Male | Young Adult | Time Perception | Adult | Female | Aged | Columbidae | Neurosciences | Timing issues | Animal cognition | Comparative studies | Animal behavior
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Loading RightsFrontiers in Integrative Neuroscience, ISSN 1662-5145, 2011, Volume 5, p. 77
The duration bisection paradigm is a classic task used to examine how humans and other animals perceive time. Typically, participants first learn short and...
Interval timing | Contingent negative variation (CNV) | EEG | Slow potential | Temporal memory | Duration bisection | N1-P2 | Time perception | Time Perception | Contingent Negative Variation | interval timing
Interval timing | Contingent negative variation (CNV) | EEG | Slow potential | Temporal memory | Duration bisection | N1-P2 | Time perception | Time Perception | Contingent Negative Variation | interval timing
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Loading RightsPsychological Research, ISSN 0340-0727, 7/2013, Volume 77, Issue 4, pp. 463 - 479
Scalar Expectancy Theory (SET) has been the leading theory in timing research, and has also influenced research into human timing. However, other timing...
Psychology | Psychology Research | TASK | DISCRIMINATION | SCALAR-EXPECTANCY-THEORY | SENSITIVITY | MODEL | REFERENTS | LEARNING-TO-TIME | PSYCHOLOGY, EXPERIMENTAL | THEORY SET | DURATION | TRANSPOSITION | Young Adult | Acoustic Stimulation | Humans | Adolescent | Female | Male | Psychological Theory | Reaction Time | Time Perception - physiology | Auditory Perception - physiology | Psychomotor Performance - physiology | Time perception
Psychology | Psychology Research | TASK | DISCRIMINATION | SCALAR-EXPECTANCY-THEORY | SENSITIVITY | MODEL | REFERENTS | LEARNING-TO-TIME | PSYCHOLOGY, EXPERIMENTAL | THEORY SET | DURATION | TRANSPOSITION | Young Adult | Acoustic Stimulation | Humans | Adolescent | Female | Male | Psychological Theory | Reaction Time | Time Perception - physiology | Auditory Perception - physiology | Psychomotor Performance - physiology | Time perception
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Loading RightsJournal of the Experimental Analysis of Behavior, ISSN 0022-5002, 07/2012, Volume 98, Issue 1, pp. 23 - 44
When subjects learn to associate two sample durations with two comparison keys, do they learn to associate the keys with the short and long samples (relational...
pigeon | relative versus absolute | stimulus control | LeT model | timing | Timing | Pigeon | Relative versus absolute | Stimulus control | TIME | PSYCHOLOGY, EXPERIMENTAL | PIGEONS | DISCRIMINATION | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | DURATION | Stimulus Generalization | Brain | Cognitive Processes | Animals | Prediction | Animal Behavior | Behavioral Science Research | Experimental Psychology | Stimuli | Time Perception | Choice Behavior | Discrimination (Psychology) | Generalization, Stimulus | Models, Psychological | Columbidae | Discrimination Learning | Reaction time | Discriminative stimuli | Research | Conditioned response | Analysis | Studies | Learning | Birds | Hypotheses | Behavior | Rodents
pigeon | relative versus absolute | stimulus control | LeT model | timing | Timing | Pigeon | Relative versus absolute | Stimulus control | TIME | PSYCHOLOGY, EXPERIMENTAL | PIGEONS | DISCRIMINATION | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | DURATION | Stimulus Generalization | Brain | Cognitive Processes | Animals | Prediction | Animal Behavior | Behavioral Science Research | Experimental Psychology | Stimuli | Time Perception | Choice Behavior | Discrimination (Psychology) | Generalization, Stimulus | Models, Psychological | Columbidae | Discrimination Learning | Reaction time | Discriminative stimuli | Research | Conditioned response | Analysis | Studies | Learning | Birds | Hypotheses | Behavior | Rodents
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Loading RightsBehavioural Processes, ISSN 0376-6357, 07/2008, Volume 78, Issue 3, pp. 380 - 386
This experiment investigated the effects of visual flicker on subjective time in humans using a temporal bisection task. A 200–800 ms duration range and...
Humans | Temporal bisection | Internal clock | Time perception | Visual flicker | DECISION-PROCESSES | METHAMPHETAMINE | internal clock | SPEEDING-UP | PERCEPTION | temporal bisection | ZOOLOGY | MEMORY | DISCRIMINATION | visual flicker | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | time perception | humans | DURATION | Psychophysics - methods | Signal Detection, Psychological - physiology | Visual Perception - physiology | Adolescent | Adult | Female | Male | Time Perception - physiology | Discrimination Learning - physiology | Memory - physiology
Humans | Temporal bisection | Internal clock | Time perception | Visual flicker | DECISION-PROCESSES | METHAMPHETAMINE | internal clock | SPEEDING-UP | PERCEPTION | temporal bisection | ZOOLOGY | MEMORY | DISCRIMINATION | visual flicker | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | time perception | humans | DURATION | Psychophysics - methods | Signal Detection, Psychological - physiology | Visual Perception - physiology | Adolescent | Adult | Female | Male | Time Perception - physiology | Discrimination Learning - physiology | Memory - physiology
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Loading RightsJournal of Experimental Child Psychology, ISSN 0022-0965, 2003, Volume 84, Issue 1, pp. 63 - 76
Children, aged 5 and 8 years, and adults were tested in a bisection task with a sequence of stimuli in which time and number co-varied. In a counting and a...
Bisection | Time | Timing | Number | Counting | counting | bisection | ATTENTIONAL RESOURCES | TEMPORAL GENERALIZATION | timing | INTERNAL CLOCK | PSYCHOLOGY, DEVELOPMENTAL | HUMANS | PSYCHOLOGY, EXPERIMENTAL | NUMERICAL INFORMATION | CHILDREN | number | PERCEPTION | INTERVALS | time | DURATION | Performance Factors | Cross Sectional Studies | Interference Effects | Age Differences | Bisection Procedures | Interference (Learning) | Adults | Time Factors (Learning) | Children | Discrimination Learning | Humans | Child, Preschool | Female | Male | Cognition | Mathematics | Time Perception - physiology | Child Development - physiology | Random Allocation | Child | Child development | Research | Time perception
Bisection | Time | Timing | Number | Counting | counting | bisection | ATTENTIONAL RESOURCES | TEMPORAL GENERALIZATION | timing | INTERNAL CLOCK | PSYCHOLOGY, DEVELOPMENTAL | HUMANS | PSYCHOLOGY, EXPERIMENTAL | NUMERICAL INFORMATION | CHILDREN | number | PERCEPTION | INTERVALS | time | DURATION | Performance Factors | Cross Sectional Studies | Interference Effects | Age Differences | Bisection Procedures | Interference (Learning) | Adults | Time Factors (Learning) | Children | Discrimination Learning | Humans | Child, Preschool | Female | Male | Cognition | Mathematics | Time Perception - physiology | Child Development - physiology | Random Allocation | Child | Child development | Research | Time perception
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Loading RightsActa Psychologica, ISSN 0001-6918, 2007, Volume 125, Issue 2, pp. 240 - 256
Experiment 1 compared the temporal performance of 5-year-olds, 8-year-olds and adults in a bisection task with and without referent durations (similarity vs....
Bisection | Time | Children | Categorization | Memory | bisection | memory | categorization | TEMPORAL BISECTION | INTERNAL CLOCK | STIMULI | HUMANS | ADULTS | PSYCHOLOGY, EXPERIMENTAL | PERCEPTION | children | DISCRIMINATION | INTERVALS | time | DURATION | JUDGMENTS | Age Factors | Humans | Child, Preschool | Male | Child Behavior - psychology | Psychomotor Performance - physiology | Recognition (Psychology) - physiology | Acoustic Stimulation - methods | Analysis of Variance | Photic Stimulation - methods | Time Factors | Adult | Female | Time Perception - physiology | Child | Task Performance and Analysis | Memory - physiology | Analysis | Behavior
Bisection | Time | Children | Categorization | Memory | bisection | memory | categorization | TEMPORAL BISECTION | INTERNAL CLOCK | STIMULI | HUMANS | ADULTS | PSYCHOLOGY, EXPERIMENTAL | PERCEPTION | children | DISCRIMINATION | INTERVALS | time | DURATION | JUDGMENTS | Age Factors | Humans | Child, Preschool | Male | Child Behavior - psychology | Psychomotor Performance - physiology | Recognition (Psychology) - physiology | Acoustic Stimulation - methods | Analysis of Variance | Photic Stimulation - methods | Time Factors | Adult | Female | Time Perception - physiology | Child | Task Performance and Analysis | Memory - physiology | Analysis | Behavior
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Loading RightsBehavioural Processes, ISSN 0376-6357, 04/2005, Volume 69, Issue 1, pp. 33 - 43
Pigeons' bisection of two number scales, 1-16 and 2-32, was examined in two experiments. In Experiment 1, pigeons learned to choose different comparison keys...
Number discrimination | Pigeons | Number scale bisection | TIME-LEFT | SQUIRREL-MONKEYS | SUBTRACTING PIGEONS | SEQUENCES | SUMMATION | NUMERICAL COMPETENCE | number scale bisection | ZOOLOGY | DISCRIMINATION | number discrimination | REINFORCEMENT | BEHAVIORAL SCIENCES | PSYCHOLOGY, BIOLOGICAL | pigeons | JUDGMENTS | DURATION | Animals | Problem Solving | Statistics, Nonparametric | Conditioning, Operant | Columbidae | Mathematics | Random Allocation | Association Learning | Discrimination Learning
Number discrimination | Pigeons | Number scale bisection | TIME-LEFT | SQUIRREL-MONKEYS | SUBTRACTING PIGEONS | SEQUENCES | SUMMATION | NUMERICAL COMPETENCE | number scale bisection | ZOOLOGY | DISCRIMINATION | number discrimination | REINFORCEMENT | BEHAVIORAL SCIENCES | PSYCHOLOGY, BIOLOGICAL | pigeons | JUDGMENTS | DURATION | Animals | Problem Solving | Statistics, Nonparametric | Conditioning, Operant | Columbidae | Mathematics | Random Allocation | Association Learning | Discrimination Learning
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Loading RightsBehavioural Processes, ISSN 0376-6357, 2009, Volume 81, Issue 2, pp. 280 - 285
We examined if the representation of time intervals in a temporal discrimination task is based not only on their absolute but also on their relative durations....
Learning-to-time model | Psychometric function | Relative duration | Temporal discrimination | Pigeon | Bisection task | SCALAR EXPECTANCY-THEORY | LEARNING-TO-TIME | PIGEONS | SAMPLE | ZOOLOGY | MODELS | BEHAVIORAL SCIENCES | PSYCHOLOGY, BIOLOGICAL | THEORY SET | DURATION | Animals | Discrimination (Psychology) - physiology | Conditioning, Operant - physiology | Generalization (Psychology) | Logistic Models | Psychometrics | Columbidae | Time Perception - physiology | Psychomotor Performance - physiology | Discrimination Learning - physiology | Analysis | Universities and colleges
Learning-to-time model | Psychometric function | Relative duration | Temporal discrimination | Pigeon | Bisection task | SCALAR EXPECTANCY-THEORY | LEARNING-TO-TIME | PIGEONS | SAMPLE | ZOOLOGY | MODELS | BEHAVIORAL SCIENCES | PSYCHOLOGY, BIOLOGICAL | THEORY SET | DURATION | Animals | Discrimination (Psychology) - physiology | Conditioning, Operant - physiology | Generalization (Psychology) | Logistic Models | Psychometrics | Columbidae | Time Perception - physiology | Psychomotor Performance - physiology | Discrimination Learning - physiology | Analysis | Universities and colleges
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Loading RightsBehavioural Processes, ISSN 0376-6357, 2009, Volume 81, Issue 2, pp. 286 - 292
In a symbolic matching to sample task, six pigeons learned to associate different sample durations with different comparison stimuli. On “Short” trials, choice...
Psychometric function | Double temporal bisection | Learning-to-Time model | Scalar Expectancy Theory | Timing | Pigeons | TESTS | STIMULUS-DURATION | BEHAVIOR | LEARNING-TO-TIME | ZOOLOGY | MODELS | DISCRIMINATION | SCALAR-EXPECTANCY-THEORY | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | THEORY SET | Cues | Color | Models, Psychological | Generalization (Psychology) | Psychomotor Performance - physiology | Animals | Individuality | Choice Behavior - physiology | Conditioning, Operant | Columbidae | Time Perception - physiology | Photic Stimulation | Discrimination Learning
Psychometric function | Double temporal bisection | Learning-to-Time model | Scalar Expectancy Theory | Timing | Pigeons | TESTS | STIMULUS-DURATION | BEHAVIOR | LEARNING-TO-TIME | ZOOLOGY | MODELS | DISCRIMINATION | SCALAR-EXPECTANCY-THEORY | BEHAVIORAL SCIENCES | INTERVALS | PSYCHOLOGY, BIOLOGICAL | THEORY SET | Cues | Color | Models, Psychological | Generalization (Psychology) | Psychomotor Performance - physiology | Animals | Individuality | Choice Behavior - physiology | Conditioning, Operant | Columbidae | Time Perception - physiology | Photic Stimulation | Discrimination Learning
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Loading RightsBiomedizinische Technik, ISSN 0013-5585, 06/2011, Volume 56, Issue 3, pp. 129 - 145
We present the orthogonal recursive bisection algorithm that hierarchically segments the anatomical model structure into subvolumes that are distributed to...
high performance computing | load balancing | performance scaling | cardiac models | massively parallel distributed memory supercomputer | MEDICAL INFORMATICS | TISSUE | HETEROGENEITIES | BIDOMAIN MODEL | REPOLARIZATION | HEART | ACTION-POTENTIAL DURATION | COMPUTER | MULTIGRID PRECONDITIONER | REACTION-DIFFUSION MODELS | ELECTRICAL-ACTIVITY | Heart - anatomy & histology | Algorithms | Animals | Models, Cardiovascular | Computer Simulation
high performance computing | load balancing | performance scaling | cardiac models | massively parallel distributed memory supercomputer | MEDICAL INFORMATICS | TISSUE | HETEROGENEITIES | BIDOMAIN MODEL | REPOLARIZATION | HEART | ACTION-POTENTIAL DURATION | COMPUTER | MULTIGRID PRECONDITIONER | REACTION-DIFFUSION MODELS | ELECTRICAL-ACTIVITY | Heart - anatomy & histology | Algorithms | Animals | Models, Cardiovascular | Computer Simulation