NEGATIVE REINFORCEMENT WITH SHOCK‐FREQUENCY INCREASE<sup>1</sup>

Gardner, Edward T.; Lewis, Paul

doi:10.1901/jeab.1976.25-3

Cited by 37 publications

(17 citation statements)

References 11 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…Previous investigations have shown that increased delay to shock is sufficient to produce avoidance behavior (Gardner and Lewis, 1976;Hineline, 1970). Other investigations have suggested that shockfrequency reduction (Herrnstein and Hineline, 1966;Lambert et al, 1973) may be sufficient.…”

Section: Discussionmentioning

confidence: 99%

See 1 more Smart Citation

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

Lewis

Gardner

Hutton

1976

J Exper Analysis Behavior

Self Cite

View full text Add to dashboard Cite

Rats were shocked at the rate of two per minute until they pressed a lever. In Experiment I, shocks were delivered at variable-time intervals averaging 30 sec; in Experiment II, shocks were delivered at fixed-time intervals of 30 sec. A response produced an alternate condition for a fixed-time period. The shock frequency following a response, calculated over the whole alternate condition, was two per minute. The pattern of shocks in the alternate condition was controlled so that the first shock occurred at the same time as it would have occurred had the response not been emitted; the remaining shocks were delayed until near the end of the alternate condition. Bar pressing was acquired in both experiments. This finding is not explained by two-factor theories of avoidance and is inconsistent with the notion that overall shock-frequency reduction is necessary for negative reinforcement. The data imply that responding is determined by the integrated delays to each shock following a response versus the integrated delays to shock in the absence of a response.Key words: aversive control, avoidance, delayed shock, shock frequency, bar press, rats A response on a free-operant avoidance schedule (Sidman, 1953) interrupts for several seconds (RS interval) a series of brief shocks spaced a few seconds apart (SS interval). A single response has two effects. It introduces a delay between the response and the next shock, and it reduces the overall frequency of shocks. Several investigators have attempted to determine which of the two, delay or reduced frequency, is necessary and which is sufficient to produce responding.Lambert, Bersh, Hineline, and Smith (1973) presented rats with a 10-sec stimulus followed by five shocks. A response during the stimulus produced one immediate shock, but caused the five shocks at the end of the stimulus to be omitted; thus, a response resulted in a decreased delay to shock and an 80% reduction in the total number of shocks. Several animals showed increased shuttle responding under this procedure; two rats, however, showed no acquisition of a bar-press response. Lambert ' Hineline's (1970) procedure. When a bar press delayed a single shock for 10 sec, but left the total number of shocks unchanged, the bar press was acquired. Hineline also found that responding stopped when it led to a 10-sec delay to shock accompanied by a shock-frequency increase. Gardner and Lewis (1976)

show abstract

Section: Discussionmentioning

confidence: 99%

“…Hineline also found that responding stopped when it led to a 10-sec delay to shock accompanied by a shock-frequency increase. Gardner and Lewis (1976) …”

mentioning

confidence: 99%

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

Lewis

Gardner

Hutton

1976

J Exper Analysis Behavior

Self Cite

View full text Add to dashboard Cite

show abstract

“…Gardner & Lewis, 1976;Herrnstein & Hineline, 1966). That is, the specific forms that decreased in each condition were exactly the forms that should have decreased, given that corresponding forms of self-injury had been eliminated (cf.…”

Section: Discussionmentioning

confidence: 99%

“…Perhaps more important, this experiment carries further the inferential analysis of self-restraint: In this study, self-restraint showed the selective characteristics that it should if its function were to escape, avoid, hinder, or delay self-injurious behaviors (cf. Gardner & Lewis, 1976;Herrnstein & Hineline, 1966). That is, the specific forms that decreased in each condition were exactly the forms that should have decreased, given that corresponding forms of self-injury had been eliminated (cf.…”

Section: Discussionmentioning

confidence: 99%

Reducing Self‐injury and Corresponding Self‐restraint Through the Strategic Use of Protective Clothing

Silverman¹,

Watanabe²,

Marshall³

et al. 1984

J of App Behav Analysis

View full text Add to dashboard Cite

We examined the use of protective clothing to reduce a retarded male's face‐punching and leg‐kicking and two corresponding forms of self‐restraint—arm and leg self‐restraint. The resident was observed each day in three sessions of randomly ordered conditions (one condition per session): without any protective clothing, with a padded helmet, and with a padded helmet and padded slippers. Use of the padded helmet substantially reduced face‐punching and arm self‐restraint. The addition of padded slippers reduced leg‐kicking and leg self‐restraint. These results suggest a practical and effective means of controlling self‐injury and self‐restraint. They are also consistent with the possibility that the resident's arm restraint was maintained in part by escape or avoidance of face‐punching and that his leg restraint was maintained in part by escape or avoidance of leg‐kicking.

show abstract

“…Hineline (1970) observed bar-press acquisition when a response delayed the onset of a single shock for 10 sec but did not change the overall number of shocks. Gardner and Lewis (1976) shocked rats at variable-time intervals averaging two shocks per minute. A bar press activated a 3-min condition, during which a series of six brief shocks was delivered with a delay of 10, 88, or 165 sec.…”

mentioning

confidence: 99%

PARAMETERS AFFECTING THE MAINTENANCE OF NEGATIVELY REINFORCED KEY PECKING¹

Gardner

Lewis

1977

J Exper Analysis Behavior

Self Cite

View full text Add to dashboard Cite

Three negative reinforcement experiments employing a key-peck response are described. In Experiment I, pigeons shocked on the average of twice per minute (imposed condition) could produce, by pecking a key, an alternate condition with correlated stimuli. Delayed shocks were added, across sessions, to the alternate condition until pecking stopped. Two of three pigeons continued to peck despite a 100% increase in shock frequency. In Experiment II, pigeons were shocked in the imposed condition four times per minute. The postresponse delay to shock was held constant by delivering, in the alternate condition, the next shock, or the next two, three, or four shocks from the imposed-condition shock schedule. All three subjects continued to peck with no change in delay to the first two postresponse shocks but with a 75% reduction in shock frequency. In Experiment III, a response produced an immediate shock followed by a shock-free period. Three of four subjects continued to respond despite reduced delay to shock. Delay-to-shock or shock-frequency reduction was sufficient to maintain key pecking, but neither was necessary. The conditions that negatively reinforce the pigeon's key peck were similar to conditions that negatively reinforce the rat's bar press.

show abstract

NEGATIVE REINFORCEMENT WITH SHOCK‐FREQUENCY INCREASE¹

Cited by 37 publications

References 11 publications

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

Reducing Self‐injury and Corresponding Self‐restraint Through the Strategic Use of Protective Clothing

PARAMETERS AFFECTING THE MAINTENANCE OF NEGATIVELY REINFORCED KEY PECKING¹

Contact Info

Product

Resources

About

NEGATIVE REINFORCEMENT WITH SHOCK‐FREQUENCY INCREASE1

Cited by 37 publications

References 11 publications

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT1

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT1

Reducing Self‐injury and Corresponding Self‐restraint Through the Strategic Use of Protective Clothing

PARAMETERS AFFECTING THE MAINTENANCE OF NEGATIVELY REINFORCED KEY PECKING1

Contact Info

Product

Resources

About

NEGATIVE REINFORCEMENT WITH SHOCK‐FREQUENCY INCREASE¹

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

INTEGRATED DELAYS TO SHOCK AS NEGATIVE REINFORCEMENT¹

PARAMETERS AFFECTING THE MAINTENANCE OF NEGATIVELY REINFORCED KEY PECKING¹