In the Serial Reaction Time (SRT) task, participants respond to a set of stimuli the order of which is apparently random, but which consists of repeating sub-sequences. Participants can become sensitive to this regularity, as measured by an indirect test of reaction time, but can remain apparently unaware of the sequence, as measured by direct tests of prediction or recognition. Some researchers have claimed that this learning may take place by observation alone. We suggest that observational learning may be due to explicit acquired knowledge of the sequence, and is not mediated by the same processes which give rise to learning by action. In Expt 1, we show that it is very difficult to acquire explicit sequence knowledge under dual task conditions, even when participants are told that a regular sequence exists. In Expt 2, we use the same conditions to compare actors, who respond to the sequence during learning, and observers, who merely watch the stimuli. Furthermore, we manipulate the salience of the sequence, in order to encourage learning. There is no evidence of observational learning in these conditions, despite the usual effects of learning being demonstrated by actors. In Expt 3, we show that observational learning does occur, but only when observers have no secondary task and even then only reliably for a sequence which has been made salient by chunking subcomponents. We conclude that sequence learning by observation is mediated by explicit processes, and is eliminated under conditions which support learning by action, but make it difficult to acquire explicit knowledge.
Line graphs stand as an established information visualisation and analysis technique taught at various levels of difficulty according to standard Mathematics curricula. Blind individuals cannot use line graphs as a visualisation and analytic tool because they currently primarily exist in the visual medium. The research described in this paper aims at making line graphs accessible to blind students through auditory and haptic media. We describe (1) our design space for representing line graphs, (2) the technology we use to develop our prototypes and (3) the insights from our preliminary work.
We investigated two solutions for numerical (2D) tabular data discovery and overview for visually impaired and blind users. One involved accessing information in tables (26 rows x 10 columns containing integers between and including 0 and 100) by this target user group using both speech and non-speech sounds. The other involved accessing similar information in tables of the same size through speech only by the same user group. We found that opportunities to access data through non-speech sounds result in a highly significant decrease in the overall subjective workload, more specifically in the mental, temporal, performance and frustration workload categories. This subjective workload assessment was supported by our quantitative results which showed a highly significant decrease in the average time taken to complete a given data comprehension task and a significant increase in the number of successfully completed tasks.
Using a serial reaction time task, this study examines whether learning of auditory sequences is possible without a corresponding motor response, i.e., by listening alone. The dual sequence paradigm used by Mayr (in Journal of the Experimental Psychology: Learning memory and cognition 22:350-354, 1996, Experiment 1) was adapted to the auditory domain. Four different actors spoke the same four colour words. These were presented such that speaker identity followed one sequence, and the word spoken followed a different sequence. Subjects were asked to respond (with a key press) to one of these dimensions (identity or word), and ignore the other. Results showed learning for either type of stimulus, but only when it was responded to. No learning of either type of auditory sequence by listening alone was found. The results add evidence to visual implicit learning studies that have failed to find learning of event sequences when spatial or response selection was not an important factor in processing. The findings are discussed in the context of implicit learning as a general and fundamental cognitive process.
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