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RESPONSE ALLOCATION IN CONCURRENT CHAINS WHEN TERMINAL‐LINK DELAYS FOLLOW AN ASCENDING AND DESCENDING SERIES
Author(s) -
Christensen Darren R.,
Grace Randolph C.
Publication year - 2009
Publication title -
journal of the experimental analysis of behavior
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.75
H-Index - 61
eISSN - 1938-3711
pISSN - 0022-5002
DOI - 10.1901/jeab.2009.91-1
Subject(s) - terminal (telecommunication) , immediacy , series (stratigraphy) , link (geometry) , computer science , control theory (sociology) , statistics , psychology , real time computing , mathematics , artificial intelligence , computer network , control (management) , paleontology , philosophy , epistemology , biology
Eight pigeons were trained in a concurrent‐chains procedure in which the terminal‐link immediacy ratio followed an ascending or descending series. Across sessions, one terminal‐link delay changed from 2 s to 32 s to 2 s or from 32 s to 2 s to 32 s, while the other was always 8 s. For all pigeons, response allocation tracked changes in delay and was biased towards the 8‐s alternative on the descending series, indicating a hysteresis effect, and was more sensitive to changes in the terminal‐link delay ratio for relatively long (> 8 s) than short (< 8 s) delays. Both the hysteresis and effect of delay duration were predicted by an extended version of Grace and McLean's (2006) decision model. The extended decision model provided an overall better account of the results than a simple linear‐operator model (Grace, 2002), and holds promise for an integrated account of choice in concurrent chains for both acquisition and steady‐state conditions.