Seven pigeons were trained to respond on one key during the first half of a 60-s trial, and on another during the second half, to test the prediction that the rate of the internal pacemaker should slow in the absence of reward. The relative probability of responding was well-described by Erlang distributions, which yielded as parameters the period of the pacemaker and the criterial number of counts for switching to the second key. During a subsequent period of extinction the period increased linearly with time in extinction, and the criterial count decreased. This slowing of the pacemaker was predicted by the Behavioral Theory of timing, but not by other theories
The present experiment examined whether discrimination learning shapes the single-peaked response di...
Six pigeons were trained to key peck for 3-s access to mixed grain on a multiple variable-interval 6...
Behavioral momentum theory is an evolving theoretical account of the strength of behavior. One chall...
The assumption by the behavioral theory of timing that pacemaker rate is proportional to reinforcer ...
In the present experiment, an attempt was made to extend the base of evidence for the assumption of ...
This research is a replication of Machado and Keen’s (1999) procedure which tested the ability of tw...
Pigeons discriminated between the 1st and 2nd halves of a trial. Trial duration was varied both with...
The mode-control model of counting and timing (Meek & Church, 1983) suggests that discriminations ba...
Models of interval timing typically include a response threshold to account for temporal production....
In the behavioral theory of timing, pulses from a hypothetical Poisson pacemaker produce transitions...
The behavioral theory of timing assumes that timing is governed by a pacemaker whose pulses move org...
Two experiments examined pigeons ’ postponement of a signaled extinction period, or timeout (TO), fr...
Cues signaling time to reinforcer availability can be highly informative, somewhat informative, or u...
Three experiments were conducted to test an interpretation of the response-rate-reducing effects of ...
This study reexamined the processes of acquisition and extinction under periodic reinforcement. Duri...
The present experiment examined whether discrimination learning shapes the single-peaked response di...
Six pigeons were trained to key peck for 3-s access to mixed grain on a multiple variable-interval 6...
Behavioral momentum theory is an evolving theoretical account of the strength of behavior. One chall...
The assumption by the behavioral theory of timing that pacemaker rate is proportional to reinforcer ...
In the present experiment, an attempt was made to extend the base of evidence for the assumption of ...
This research is a replication of Machado and Keen’s (1999) procedure which tested the ability of tw...
Pigeons discriminated between the 1st and 2nd halves of a trial. Trial duration was varied both with...
The mode-control model of counting and timing (Meek & Church, 1983) suggests that discriminations ba...
Models of interval timing typically include a response threshold to account for temporal production....
In the behavioral theory of timing, pulses from a hypothetical Poisson pacemaker produce transitions...
The behavioral theory of timing assumes that timing is governed by a pacemaker whose pulses move org...
Two experiments examined pigeons ’ postponement of a signaled extinction period, or timeout (TO), fr...
Cues signaling time to reinforcer availability can be highly informative, somewhat informative, or u...
Three experiments were conducted to test an interpretation of the response-rate-reducing effects of ...
This study reexamined the processes of acquisition and extinction under periodic reinforcement. Duri...
The present experiment examined whether discrimination learning shapes the single-peaked response di...
Six pigeons were trained to key peck for 3-s access to mixed grain on a multiple variable-interval 6...
Behavioral momentum theory is an evolving theoretical account of the strength of behavior. One chall...