Category: Speech

Want to come work with us?

Post author By Jonas
Post date 2017/11/26

Postdoc position in the Obleser lab, in the ERC-funded project “Audadapt” — deadline for applications very soon! (Nov 30 2017). Check out all applications details here!

Ageing Attention Auditory Cortex Auditory Neuroscience Editorial Notes EEG / MEG Executive Functions Neural Phase Posters

Come see us @ Neuroscience 2017 in DC

Post author By Jonas
Post date 2017/11/04

Will be at the Society for Neuroscience Meeting next week in DC? Come find us in the Wednesday afternoon session with a bunch of (we think) very cool attention-related posters (Poster boards UU42–UU46):

804.06. Auditory attention and predictive processing co-modulate speech comprehension in middle-aged adults
*S. TUNE, M. WÖSTMANN, J. OBLESER;

804.05. Implicit temporal predictability enhances auditory pitch-discrimination sensitivity
*S. K. HERBST, M. PLÖCHL, A. HERRMANN, J. OBLESER;

804.09. Are visual and auditory detection performance driven by a supramodal attentional rhythm?
*M. PLOECHL, S. KASTNER, I. C. FIEBELKORN, J. OBLESER;

804.08. Spatio-temporal expectations exert differential effects on visual and auditory discrimination
*A. WILSCH, J. OBLESER, C. E. SCHROEDER, C. S. HERRMANN, S. HAEGENS

804.07. Transcranial 10-Hz stimulation but also eye closure modulate auditory attention
*M. WÖSTMANN, L.-M. SCHMITT, J. VOSSKUHL, C. S. HERRMANN, J. OBLESER

Tags SfN2017

Attention Auditory Neuroscience EEG / MEG Evoked Activity Neural Oscillations Neural Phase Papers Perception Psychology Uncategorized

New paper in Plos Biology: Comment by Obleser, Henry, & Lakatos

Post author By Jonas
Post date 2017/09/20

My colleagues and collaborator Peter Lakatos and Molly Henry and I took to our desks and Matlab consoles, when Assaf Breska and Leon Deouell came out earlier this year with their paper in Plos Biology.

We had a few things to say about what we then perceived as a rather pessimistic assessment of neural entrainment. However, since then a great and quite frutiful discussion has emerged, now published in Plos Biology:

Obleser J, Henry, MJ, & Lakatos, P. What do we talk about when we talk about rhythm?, Plos Biology 2017

Meanwhile, Breska and Deouell added some more behavioural data and replied to us (now also published).

— Enjoy!

Adaptive Control Ageing Auditory Cortex Auditory Neuroscience EEG / MEG Evoked Activity Executive Functions Neural Oscillations Neural Phase Papers Perception Publications

New paper in press: Henry et al., Nature Communications

Post author By Jonas
Post date 2017/05/08

Here comes a new paper in Nature Communications by former AC postdoc Molly Henry, with former fellow postdoc AC alumnus Björn Herrmann, our tireless lab manager, Dunja Kunke, and myself! It is a late (to us quite important) result from our lab’s tenure at the Max Planck in Leipzig,

Henry, M.J., Herrmann, B., Kunke, D., Obleser, J. (In press). Aging affects the balance of neural entrainment and top-down neural modulation in the listening brain. Nature Communications.

—Congratulations, Molly!

Attention Auditory Cortex Auditory Neuroscience Auditory Speech Processing EEG / MEG Papers Psychology Publications

New paper in press in Journal of Neural Engineering: Fiedler et al. on in-ear-EEG and the focus of auditory attention

Post author By Jonas
Post date 2017/04/10

Towards a brain-controlled hearing aid: PhD student Lorenz Fiedler shows how attended and ignored auditory streams are differently represented in the neural responses and how the focus of auditory attention can be extracted from EEG signals recorded at electrodes placed inside the ear-canal and around the ear.

Abstract

Objective. Conventional, multi-channel scalp electroencephalography (EEG) allows the identification of the attended speaker in concurrent-listening (‘cocktail party’) scenarios. This implies that EEG might provide valuable information to complement hearing aids with some form of EEG and to install a level of neuro-feedback. Approach. To investigate whether a listener’s attentional focus can be detected from single-channel hearing-aid-compatible EEG configurations, we recorded EEG from three electrodes inside the ear canal (‘in-Ear-EEG’) and additionally from 64 electrodes on the scalp. In two different, concurrent listening tasks, participants ( n = 7) were fitted with individualized in-Ear-EEG pieces and were either asked to attend to one of two dichotically-presented, concurrent tone streams or to one of two diotically-presented, concurrent audiobooks. A forward encoding model was trained to predict the EEG response at single EEG channels. Main results. Each individual participants’ attentional focus could be detected from single-channel EEG response recorded from short-distance configurations consisting only of a single in-Ear-EEG electrode and an adjacent scalp-EEG electrode. The differences in neural responses to attended and ignored stimuli were consistent in morphology (i.e. polarity and latency of components) across subjects. Significance. In sum, our findings show that the EEG response from a single-channel, hearing-aid-compatible configuration provides valuable information to identify a listener’s focus of attention.

Adaptive Control Attention Auditory Cortex Auditory Neuroscience Auditory Perception Auditory Speech Processing Degraded Acoustics EEG / MEG Evoked Activity Executive Functions Neural Oscillations Noise-Vocoded Speech Papers Perception Psychology Publications Speech

New paper in press in Cerebral Cortex: Wöstmann et al. on ignoring degraded speech

Post author By Jonas
Post date 2017/03/07

Auditory Cognition’s own Malte Wöstmann is in press in Cerebral Cortex with his latest offering on how attentional control manifests in alpha power changes: Ignoring speech can be beneficial (if comprehending speech potentially detracts from another task), and we here show how this change in listening goals turns around the pattern of alpha-power changes with changing speech degradation. (We will update as the paper becomes available online.)

Wöstmann, M., Lim, S.J., & Obleser, J. (2017). The human neural alpha response to speech is a proxy of attentional control. Cerebral Cortex. In press.

Abstract

Human alpha (~10 Hz) oscillatory power is a prominent neural marker of cognitive effort. When listeners attempt to process and retain acoustically degraded speech, alpha power enhances. It is unclear whether these alpha modulations reflect the degree of acoustic degradation per se or the degradation-driven demand to a listener’s attentional control. Using an irrelevant-speech paradigm in electroencephalography (EEG), the current experiment demonstrates that the neural alpha response to speech is a surprisingly clear proxy of top-down control, entirely driven by the listening goals of attending versus ignoring degraded speech. While (n=23) listeners retained the serial order of 9 to-be-recalled digits, one to-be-ignored sentence was presented. Distractibility of the to-be-ignored sentence parametrically varied in acoustic detail (noise-vocoding), with more acoustic detail of distracting speech increasingly disrupting listeners’ serial memory recall. Where previous studies had observed decreases in parietal and auditory alpha power with more acoustic detail (of target speech), alpha power here showed the opposite pattern and increased with more acoustic detail in the speech distractor. In sum, the neural alpha response reflects almost exclusively a listener’s exertion of attentional control, which is decisive for whether more acoustic detail facilitates comprehension (of attended speech) or enhances distraction (of ignored speech).

Auditory Cortex Auditory Neuroscience Editorial Notes Neural Oscillations Papers Psychology

Story time: Henry & Obleser (2012) revisited

Post author By Jonas
Post date 2017/01/13

Story time: Some time in early 2011, I sat down with an American, fresh PhD graduate who had just joined my new lab, in a Leipzig bar (Café Cantona; if you are interested you can find this great ²⁴⁄₇ bar with exquisite food also in the acknowledgments of, e.g., Obleser & Eisner, Trends Cogn Sci, 2009).
To the day, I could still point you to the table she and I sat down at, and the wall I faced (which is notable because we actually spent an unhealthy amount of time and money there over the years). Soon thereafter, we grabbed a beer mat and started scribbling waves and marked where we would place so-called targets (psychologist lingo) and talked a lot of gibberish about frequency modulation. I remember vididly that I had just read an insanely long review paper on neural oscillations by Wolfgang Klimesch (that, more in passing, cited old-school tales of Schmitt filters by the late great Francesco Varela or pioneers sounding like record producers, Dustman & Beck, 1965), while the young American opposite me turned out to be an—if adventurous—die-hard expert on auditory psychophysics.

Who would have thought that this very night would carry me towards tenure in three years’ time, and her around the globe as an esteemed young colleague.
When I nowadays check Google scholar, I am amazed to see that already more than 100 other papers have cited what directly grew out of that beer mat one and a half years later—not counting the many more papers this said postdoc, Molly Henry, has produced since.

Here is the link to how excited we were when the paper appeared in PNAS in 2012, and a link to the little movie a german science program kindly produced on all of this in 2013.

Adaptive Control Degraded Acoustics Grants Gyrus Angularis Semantics Speech TMS Uncategorized

New project with Gesa Hartwigsen (Max Planck Leipzig): What is Angular Gyrus actually up to?

Post author By Jonas
Post date 2016/12/21

Santa struck early this year: The Deutsche Forschungsgemeinschaft (DFG) has just granted AC head Jonas (University of Lübeck) and brain-stimulation wiz Gesa Hartwigsen (now a group leader at AC’s former institution, the MPI in Leipzig) a joint 3‑year grant, worth 371,000 € in total, on “Modulating neural network dynamics of speech comprehension: The role of the angular gyrus”. This project will build on Gesa and Jonas’ recent paper in Cortex on the topic. Thanks again to the funding body and the helpful reviewers!