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Chapter 6. Schedules of reinforcement. Schedules of reinforcement. Continuous Reinforcement Schedule. Every response is followed by the delivery of a reinforcer (can also be called FR-1; one reward for one response) . Partial (Intermittent) Reinforcement Schedule.
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Chapter 6 Schedules of reinforcement
Schedules of reinforcement Continuous Reinforcement Schedule Every response is followed by the delivery of a reinforcer (can also be called FR-1; one reward for one response) Partial (Intermittent) Reinforcement Schedule Not every response is followed by the delivery of a reinforcer; that is, Rs are reinforced "intermittently" according to the rule specified by the schedule
Four Simple Partial Reinforcement Schedules: 1. Fixed Interval 2. Variable Interval 3. Fixed Ratio 4. Variable Ratio
FR VR FI VI
Comparison of ratio and interval schedules • both fixed ratio and fixed interval schedules have a postreinforcement pause • both FR and FI schedules produce high rates of responding just before delivery of the next reinforcer • both VR and VI schedules maintain steady rates of responding, without predictable pauses • BUT, there are differences between ratio and interval schedules • Ratio schedules produce higher response rates than interval schedules
FR VR FI VI
Comparison of ratio and interval schedules VR schedules produce higher response rates (responses per min) than VI schedules. One possibility: Response rate higher when reinforcement rate (reinforcer per min) is higher. Will VR still produce higher response rate if rate of reinforcement is equated on both schedules?
Reynold’s (1975) Experiment Compared responses on a VI schedule yoked to a VR schedule One pigeon reinforced on VR schedule One pigeon on VI yoked to a pigeon on VR so that when the pigeon on VR was one response short of the VR requirement, the next response by both birds produced food.
Reynold’s (1975) Experiment The yoked pigeon was on a VI schedule because: • food availability depended on the time it took the VR bird to complete its response requirement. • this time interval varied from one reinforcer to the next (dependent on # of responses the VR bird had to make and how long it took the VR bird to make them).
Reynold’s (1975) Experiment Both birds received food at approximately the same time, and therefore the rate of reinforcement (i.e., reinforcers per min) was the same for both birds Results Despite the effort to equate rate of reinforcement, the VR bird pecked much more rapidly than the VI bird Thus, differences in reinforcement rate do not account for differences in response rate
Another possible reason for higher response rates on VR than VI: • on a VR schedule a certain number of responses must be made to obtain each reward • however, on a VI schedule only one response must be made to obtain each reward • if the number of responses emitted to obtain each reinforcer were the same on the two schedules, then perhaps the rate of responding would be the same
Experiment by Catania et al. (1977) This study replicated Reynold’s finding (by equating reinforcement rate) and also tested when equating number of responses for each reinforcer by: yoking the VR schedule to the number of responses made by the VI subject. i.e., the number of responses the VR bird had to make to obtain each reinforcer depended on the number of responses the VI bird had made during the interval to obtain its reinforcer.
Experiment by Catania et al. (1977) Again, even when the birds made the same number of responses per reinforcer, the VR birds responded at a higher rate than the VI birds.
Replication Reynold’s (1975) Cumulative Responses Bird 402 on VI 30 s Bird 414 on VR 25 Time (min) Bird 410 on VR, yoked so food comes after same # of responses as for Bird 402 Bird 406 on VI, yoked so food comes at the same time as for Bird 414.
So, higher rate of responding on ratio schedules than on interval schedules is not due to: • differences in the rate of reinforcement on the two schedules • differences in the number of responses on the two schedules Why do ratio schedules produce higher rates of responding than interval schedules?
A better way to explain the difference in response rates between ratio and interval schedules is based on the Inter-response time (IRT) – the interval, or pause, between responses
Consider the probability of receiving a reward following a given response • on interval schedules, the probability of reward increases with longer IRTs • that is, the slower the animal responds, the more likely it is that the next response will be reinforced • BECAUSE, the next response is always closer to the end of the interval • this is not true for ratio schedules • a low response rate under ratio schedules does not change the probability that the next response will produce reward • in fact, long IRTs postpone reinforcement because reward delivery is determined exclusively by the ratio requirement, not the passage of time
On a VR schedule, short interresponse times (IRTs) are more likely to be reinforced, thus rapid responding is reinforced. On a VI schedule, long IRTs are more likely to be reinforced, thus pausing (less rapid responding) is reinforced.
Ratio schedules produce higher rates of responding than interval schedules but neither schedule requires that animals respond at a specific rate Can have procedures that specifically require that a subject respond at a particular rate to get reinforced Response-rate schedules
Differential Reinforcement of Low Rates of Responding (DRL) • response is rewarded only after a certain amount of time has elapsed since the last response • DRL 15 • responses that are 15 seconds apart will be • reinforced (IRT 15). • responses that occur with a lower IRT • (<15 seconds) will restart the timer • 4 responses/min • different than interval schedules because the timer is reset
Differential Reinforcement of High Rates of Responding (DRH) • response is rewarded only if it occurs really quickly after the last response • DRH 5 • response is reinforced only if it occurs within 5 s • of the last response • 12 responses/min or more • if response rate drops below that, no reinforcement • (i.e., respond 6 or 7 seconds after last response, then • no reward)
Choice Behavior: Concurrent Schedules
Measures of Choice:Using Concurrent Schedules of Reinforcement Typically two levers or keys with a schedule of reinforcement associated with each. Choice is then assessed by comparing an animal's rate of responding on one lever with its rate of responding on the other. e.g., Lever A Lever B VI 1' VI 3'
Concurrent Schedules of Reinforcement • Usually, reward on each lever is programmed • independently • This means that if an interval schedule is programmed on lever A, while responding on lever B, the timer for lever A is running and reward availability is becoming more likely • Thus, with interval schedules the more time spent responding on the other lever, the more likely the next response on the interval lever will be reinforced
Typically there is a limited time frame: e.g., The session is 60 min; have to obtain as many reinforcers as possible in that time. Thus, wait too long to respond on a lever (next reward sits there waiting), then may not get the maximum number of reward allotted for that lever in the time allowed.
A formulation which describes the way animals distribute their responding on the two levers is:The MATCHING LAW: • Relative rate of responding on a particular lever equals the relative rate of reinforcement on that lever: # Responses on A # Rewards on A = # Responses on A + # Responses on B # Rewards on A + # Rewards on B N.B. Reinforcement is what the animal actually receives; NOT what he could receive