Sequential Effects in a Two-Choice Serial Reaction Task

1967 ◽  
Vol 19 (2) ◽  
pp. 133-141 ◽  
Author(s):  
D. J. Hale
Keyword(s):  
Repetition Effect ◽  
Recency Effect ◽  
Sequential Effects ◽  
Previous Response ◽  
Fourth Condition ◽  
Negative Recency ◽  
Negative Recency Effect ◽  
Serial Reaction ◽  
Simultaneous Prediction ◽  
Reaction Task

Twenty-four subjects performed a symbolic two-choice serial reaction task under four conditions. These were with a delay from previous response to onset of next stimulus of 100 millisec, 600 millisec., 2 sec., and a fourth condition of 2 sec. delay with verbal prediction of the next stimulus. A positive recency or repetition effect occurred at 100 millisec. delay where RTs to repeated stimuli were faster than RTs to alternate stimuli. At 600 millisec. this effect was still present, though much reduced. The 2 sec. delay gave a negative recency effect where RTs were slower to repeated than to alternate stimuli. This effect increased significantly with simultaneous prediction of the next stimulus. The verbal predictions themselves displayed negative recency. Run analysis of the four conditions revealed striking differences. These results emphasize the need for analysing the microstructure of choice RT situations and reveal deficiencies in present models.

Memory for Pictures and Words, and the Negative Recency Effect

1978 ◽  
Vol 47 (3) ◽  
pp. 967-970 ◽  
Author(s):  
John T. E. Richardson
Keyword(s):  
Mental Imagery ◽  
Visual Presentation ◽  
Recency Effect ◽  
Negative Recency ◽  
Negative Recency Effect ◽  
Pictures And Words

This experiment investigated performance in a final, cumulative test of a subject's ability to recall a series of lists. No negative recency effect was found with either pictures of objects or their names. This supports the suggestion of earlier research that the negative recency effect stems from failure to employ mental imagery as a mnemonic code on terminal serial positions and that visual presentation promotes the use of imagery throughout a list.

Mental Imagery and the Distinction between Primary and Secondary Memory

1978 ◽  
Vol 30 (3) ◽  
pp. 471-485 ◽  
Author(s):  
John T. E. Richardson
Keyword(s):  
Free Recall ◽  
Recall Test ◽  
Recency Effect ◽  
Recall Task ◽  
Secondary Memory ◽  
Free Recall Task ◽  
Delayed Recall ◽  
Interactive Imagery ◽  
Negative Recency ◽  
Negative Recency Effect

Previous research has shown that the imageability of stimulus material affects the secondary memory (SM) component of free recall, but not the primary memory (PM) component, and that a negative recency effect is only observed for material of high imageability. It was found that interactive imagery instructions affected the SM component, but not the PM component; separative imagery instructions led to an increased PM component and a reduced SM component. A negative recency effect can be observed in an initial, delayed recall test. However, it is removed by imagery mnemonic instructions. This supports the idea that the negative recency effect is caused by the fact that subjects do not normally image the last few words presented in a free-recall task.

Further evidence for a negative recency effect in free recall

1970 ◽  
Vol 9 (5) ◽  
pp. 554-560 ◽  
Author(s):  
Fergus I.M. Craik ◽  
John M. Gardiner ◽  
Michael J. Watkins
Keyword(s):  
Free Recall ◽  
Recency Effect ◽  
Negative Recency ◽  
Negative Recency Effect

scholarly journals Motor Chunking in Internally Guided Sequencing

2021 ◽  
Vol 11 (3) ◽  
pp. 292 ◽  
Author(s):  
Krishn Bera ◽  
Anuj Shukla ◽  
Raju S. Bapi
Keyword(s):  
Response Times ◽  
Skill Learning ◽  
Motor Tasks ◽  
Performance Improvements ◽  
Sequence Production ◽  
Serial Reaction ◽  
Motor Movements ◽  
Motor Actions ◽  
Reaction Task ◽  
Or Task

Motor skill learning involves the acquisition of sequential motor movements with practice. Studies have shown that we learn to execute these sequences efficiently by chaining several elementary actions in sub-sequences called motor chunks. Several experimental paradigms, such as serial reaction task, discrete sequence production, and m × n task, have investigated motor chunking in externally specified sequencing where the environment or task paradigm provides the sequence of stimuli, i.e., the responses are stimulus driven. In this study, we examine motor chunking in a class of more realistic motor tasks that involve internally guided sequencing where the sequence of motor actions is self-generated or internally specified. We employ a grid-navigation task as an exemplar of internally guided sequencing to investigate practice-driven performance improvements due to motor chunking. The participants performed the grid-sailing task (GST) (Fermin et al., 2010), which required navigating (by executing sequential keypresses) a 10 × 10 grid from start to goal position while using a particular type of key mapping between the three cursor movement directions and the three keyboard buttons. We provide empirical evidence for motor chunking in grid-navigation tasks by showing the emergence of subject-specific, unique temporal patterns in response times. Our findings show spontaneous chunking without pre-specified or externally guided structures while replicating the earlier results with a less constrained, internally guided sequencing paradigm.

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