We propose a simple behavioral economic model (BEM) describing how reinforcement and interval timing interact. The model assumes a Weber-law-compliant logarithmic representation of time. Associated with each represented time value are the payoffs that have been obtained for each possible response. At a given real time, the response with the highest payoff is emitted. The model accounts for a wide range of data from procedures such as simple bisection, metacognition in animals, economic effects in free-operant psychophysical procedures and paradoxical choice in doublebisection procedures. Although it assumes logarithmic time representation, it can also account for data from the time-left procedure usually cited in support of linear time representation. It encounters some difficulties in complex free-operant choice procedures, such as concurrent mixed fixed-interval schedules as well as some of the data on double bisection, that may involve additional processes. Overall, BEM provides a theoretical framework for understanding how reinforcement and interval timing work together to determine choice between temporally differentiated reinforcers.
Keywordsbehavioral economic model; choice; interval timing; reinforcement; Weber's law Choice and interval timing are two important areas of operant behavior that have remained relatively isolated from one another. Following the lead of B. F. Skinner, (Skinner, 1938;Ferster & Skinner, 1957), research on choice has focused on the role of "economic" variables (frequency and magnitude of reinforcement, etc.; see Williams, 1988 for a review) while research on timing was approached early on from a psychophysical point of view (Catania, 1970;Dews, 1970;Gibbon, 1977) which emphasized cognitively oriented questions such as the representation of time and the information-processing mechanisms governing temporal regulation of behavior (see Church, 2004;Staddon & Cerutti, 2003;Jozefowiez & Staddon, 2008, for some recent reviews). Choice researchers have ignored cognitive questions, while at the same time students of timing have underplayed the role of reinforcement. Yet it is clear that a complete theory of operant performance will require an integration of these two fields of research (see also Whitaker, Lowe, & Wearden, 2008
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NIH-PA Author ManuscriptInterval timing, the ability of animals to adapt to temporal relations ranging from seconds to minutes between two events, has been observed in a wide range of species, from fish to humans (Lejeune & Wearden, 1991). In pigeons at least, it has an automatic, almost reflex-like nature (Wynne & Staddon, 1988), suggesting strong selection pressure at an evolutionary level, hence a potentially key role in adaptive behavior. Indeed, according to some recent accounts (Gallistel & Gibbon, 2000;Staddon & Cerutti, 2003;Staddon & Ettinger, 1989;Cerutti & Staddon, 2004b;Grace, Berg, & Kyonka, 2006;Shapiro, Miller, & Kacelnik, 2008), interval timing may play an important role in choice. Moreover, s...
