2016
DOI: 10.3758/s13420-016-0240-3
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Intertrial unconditioned stimuli differentially impact trace conditioning

Abstract: Three experiments assessed how appetitive conditioning in rats changes over the duration of a trace conditioned stimulus (CS) when unsignaled unconditioned stimuli (USs) are introduced into the intertrial interval. In Experiment 1, a target US occurred at a fixed time either shortly before (embedded), shortly after (trace), or at the same time (delay) as the offset of a 120-s CS. During the CS, responding was most suppressed by intertrial USs in the trace group, less so in the delay group, and least in the emb… Show more

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Cited by 7 publications
(6 citation statements)
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“…During the trace interval, however, WT mice did make anticipatory magazine responses suggesting that the CS trace memory, or the offset of the CS, rather than the CS itself, was a signal for the occurrence of food. The ability of a trace conditioned stimulus to become a conditioned inhibitor is not unprecedented 28 31 . Furthermore, it suggests that the temporal discontiguity in the trace conditioning procedure may lead to not only a weakening of excitatory associative learning, but also an active strengthening of inhibitory learning.…”
Section: Discussionmentioning
confidence: 99%
“…During the trace interval, however, WT mice did make anticipatory magazine responses suggesting that the CS trace memory, or the offset of the CS, rather than the CS itself, was a signal for the occurrence of food. The ability of a trace conditioned stimulus to become a conditioned inhibitor is not unprecedented 28 31 . Furthermore, it suggests that the temporal discontiguity in the trace conditioning procedure may lead to not only a weakening of excitatory associative learning, but also an active strengthening of inhibitory learning.…”
Section: Discussionmentioning
confidence: 99%
“…Alternatively, if a componential view of CS representations is assumed such that a stimulus consists of a series of temporally ordered microstimuli (e.g., Ludvig et al, 2012; Sutton & Barto, 1981, 1990; Vogel et al, 2003), it is possible that the continued CS exposure after the US had no effect because the nature of the CS representation during those periods was different to its representation prior to reinforcement. Temporal difference learning models have appealed to changes in the nature of stimulus representations within a trial in order to explain various aspects of timing behavior (e.g., Williams, Todd, Chubala, & Ludvig, 2017). In the case of the results in Experiment 3, there would have had to be little or no generalization of learning between elements of the CS representation that were processed prior to reinforcement and after reinforcement.…”
Section: Discussionmentioning
confidence: 99%
“…On the question of representation or agent state, the answer is less clear. TD-models can generate predictions consistent with the animal data, but only if the state representation fills the gap between the CS and US in the right way ( Ludvig et al, 2009 , 2012 ; Williams et al, 2017 ). A flag indicating the CS just happened, called the presence representation , will not induce predictions that increase over time, and a clock is not plausible given the range of timescales, the presence of other non-relevant distracting signals, and the massive number of predictive relationships an agent must learn in its lifetime 3 ( Gallistel & King, 2011 ).…”
Section: Classical Conditioning As Representation Learningmentioning
confidence: 99%
“…A flag indicating the CS just happened, called the presence representation , will not induce predictions that increase over time, and a clock is not plausible given the range of timescales, the presence of other non-relevant distracting signals, and the massive number of predictive relationships an agent must learn in its lifetime 3 ( Gallistel & King, 2011 ). Hand-designed temporal representations do reproduce the animal data well ( Ludvig et al, 2008 , 2009 , 2012 ; Williams et al, 2017 ), but their generality remains unclear. Ideally, the learning system could discover for itself how to represent different stimuli over-time in a way that (1) is useful across a variety of prediction tasks, and (2) requires computation and storage independent of the size of the trace interval.…”
Section: Classical Conditioning As Representation Learningmentioning
confidence: 99%