Working-memory disruption by task-irrelevant talkers depends on degree of talker familiarity

AbstractWhen listening, familiarity with an attended talker’s voice improves speech comprehension. Here, we instead investigated the effect of familiarity with a distracting talker. In an irrelevant-speech task, we assessed listeners’ working memory for the serial order of spoken digits when a task-irrelevant, distracting sentence was produced by either a familiar or an unfamiliar talker (with rare omissions of the task-irrelevant sentence). We tested two groups of listeners using the same experimental procedure. The first group were undergraduate psychology students (N=66) who had attended an introductory statistics course. Critically, each student had been taught by one of two course instructors, whose voices served as familiar and unfamiliar task-irrelevant talkers. The second group of listeners were family members and friends (N=20) who had known either one of the two talkers for more than ten years. Students, but not family members and friends, made more errors when the task-irrelevant talker was familiar versus unfamiliar. Interestingly, the effect of talker familiarity was not modulated by the presence of task-irrelevant speech: students experienced stronger working-memory disruption by a familiar talker irrespective of whether they heard a task-irrelevant sentence during memory retention or merely expected it. While previous work has shown that familiarity with an attended talker benefits speech comprehension, our findings indicate that familiarity with an ignored talker deteriorates working memory for target speech. The absence of this effect in family members and friends suggests that the degree of familiarity modulates memory disruption.

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Working-memory disruption by task-irrelevant talkers depends on degree of talker familiarity

Attention Perception & Psychophysics ◽

10.3758/s13414-019-01727-2 ◽

2019 ◽

Vol 81 (4) ◽

pp. 1108-1118 ◽

Cited By ~ 2

Author(s):

Jens Kreitewolf ◽

Malte Wöstmann ◽

Sarah Tune ◽

Michael Plöchl ◽

Jonas Obleser

Keyword(s):

Working Memory ◽

Memory Disruption ◽

Task Irrelevant ◽

Talker Familiarity

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The vulnerability of working memory to distraction is rhythmic

10.1101/2020.02.26.965848 ◽

2020 ◽

Author(s):

Malte Wöstmann ◽

Troby Ka-Yan Lui ◽

Kai-Hendrik Friese ◽

Jens Kreitewolf ◽

Malte Naujokat ◽

...

Keyword(s):

Working Memory ◽

Acoustic Noise ◽

Memory Performance ◽

Onset Time ◽

Serial Order ◽

Irrelevant Speech ◽

Event Related Potential ◽

Cognitive System ◽

Memory Retention ◽

Recall Accuracy

AbstractRecent research posits that the cognitive system samples target stimuli in a rhythmic fashion, characterized by target detection fluctuating at frequencies of ~3–8 Hz. Besides prioritized encoding of targets, a key cognitive function is the protection of working memory from distractor intrusion. Here, we test to which degree the vulnerability of working memory to distraction is rhythmic. In an Irrelevant-Speech Task, N = 23 human participants had to retain the serial order of nine numbers in working memory while being distracted by task-irrelevant speech with variable temporal onsets. The magnitude of the distractor-evoked N1 component in the event-related potential as well as behavioural recall accuracy, both measures of memory distraction, were periodically modulated by distractor onset time in approximately 2–4 cycles per second (Hz). Critically, an underlying 2.5-Hz rhythm explained variation in both measures of distraction such that stronger phasic distractor encoding mediated lower phasic memory recall accuracy. In a behavioural follow-up experiment, we tested whether these results would replicate in a task design without rhythmic presentation of target items. Participants (N = 6 with on average >2,500 trials, each) retained two line-figures in memory while being distracted by acoustic noise of varying onset across trials. In agreement with the main experiment, the temporal onset of the distractor periodically modulated memory performance. These results suggest that during working memory retention, the human cognitive system implements distractor suppression in a temporally dynamic fashion, reflected in ~400-ms long cycles of high versus low distractibility.

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Emotional prosody of task-irrelevant speech interferes with the retention of serial order.

Journal of Experimental Psychology Human Perception & Performance ◽

10.1037/xhp0000537 ◽

2018 ◽

Vol 44 (8) ◽

pp. 1303-1312 ◽

Cited By ~ 5

Author(s):

Florian Kattner ◽

Wolfgang Ellermeier

Keyword(s):

Serial Order ◽

Irrelevant Speech ◽

Emotional Prosody ◽

Task Irrelevant

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Acoustic Detail But Not Predictability of Task-Irrelevant Speech Disrupts Working Memory

Frontiers in Human Neuroscience ◽

10.3389/fnhum.2016.00538 ◽

2016 ◽

Vol 10 ◽

Cited By ~ 9

Author(s):

Malte Wöstmann ◽

Jonas Obleser

Keyword(s):

Working Memory ◽

Irrelevant Speech ◽

Task Irrelevant

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The Dynamics of Attention Shifts Among Concurrent Speech in a Naturalistic Multi-Speaker Virtual Environment

10.1101/626564 ◽

2019 ◽

Author(s):

Keren Shavit Cohen ◽

Elana Zion Golumbic

Keyword(s):

Virtual Reality ◽

Eye Gaze ◽

Real Life ◽

Irrelevant Speech ◽

Speech Comprehension ◽

Gaze Shifts ◽

Novel Approach ◽

Entire Experiment ◽

Task Irrelevant ◽

Target Speaker

AbstractFocusing attention on one speaker on the background of other irrelevant speech can be a challenging feat. A longstanding question in attention research is whether and how frequently individuals shift their attention towards task-irrelevant speech, arguably leading to occasional detection of words in a so-called unattended message. However, this has been difficult to gauge empirically, particularly when participants attend to continuous natural speech, due to the lack of appropriate metrics for detecting shifts in internal attention. Here we introduce a new experimental platform for studying the dynamic deployment of attention among concurrent speakers, utilizing a unique combination of Virtual Reality and Eye-Tracking technology. We created a Virtual Café in which participants sit across from and attend to the narrative of a target speaker. We manipulate the number and location of distractor speakers, manifest as additional patrons throughout the Virtual Café. By monitoring participant’ eye-gaze dynamics, we studied the patterns of overt shifts of attention among the concurrent speakers as well as the consequences of these shifts on speech comprehension.Our results reveal important individual differences in the gaze-pattern displayed during selective attention to speech. While some participants stayed fixated on a target speaker throughout the entire experiment, approximately 30% of participants frequently shifted their gaze toward distractor speakers or other locations in the environment, regardless of the severity of audiovisual distraction. Critically, the tendency for frequent gaze-shifts negatively impacted comprehension of the target speaker. We also found that gaze-shifts occurred primarily during gaps in the acoustic input, suggesting they are prompted by momentary unmasking of the competing audio, in line with ‘glimpsing’ theories of processing speech in noise.These results open a new window into understanding the dynamics of attention as they wax and wane over time, and the different listening patterns employed for dealing with the influx of sensory input in multisensory environments. Moreover, the novel approach developed here for tracking the locus of momentary attention in a naturalistic virtual-reality environment holds high promise for extending the study of human behavior and cognition and bridging the gap between the laboratory and real-life.

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