On the interpretation of weight vectors of linear models in multivariate neuroimaging

Haufe, Stefan; Meinecke, Frank C.; Görgen, Kai; Dähne, Sven; Haynes, John­–Dylan; Blankertz, Benjamin; Bießmann, Felix

doi:10.1016/j.neuroimage.2013.10.067

Cited by 1,149 publications

(1,317 citation statements)

References 47 publications

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“…Unlike the stimulus reconstruction approach, it is not a multivariate regression but represents multiple univariate mappings between stimulus and EEG. TRF model parameters are neurophysiologically interpretable, i.e., nonzero weights are only observed at channels where cortical activity is related to stimulus encoding (Haufe et al, 2014). This allows for examination of the amplitude, latency, and scalp topography of the stimulus-EEG relationship, complementing the stimulus reconstruction approach.…”

Section: Methodsmentioning

confidence: 99%

Congruent Visual Speech Enhances Cortical Entrainment to Continuous Auditory Speech in Noise-Free Conditions

Crosse¹,

2015

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Congruent audiovisual speech enhances our ability to comprehend a speaker, even in noise-free conditions. When incongruent auditory and visual information is presented concurrently, it can hinder a listener's perception and even cause him or her to perceive information that was not presented in either modality. Efforts to investigate the neural basis of these effects have often focused on the special case of discrete audiovisual syllables that are spatially and temporally congruent, with less work done on the case of natural, continuous speech. Recent electrophysiological studies have demonstrated that cortical response measures to continuous auditory speech can be easily obtained using multivariate analysis methods. Here, we apply such methods to the case of audiovisual speech and, importantly, present a novel framework for indexing multisensory integration in the context of continuous speech. Specifically, we examine how the temporal and contextual congruency of ongoing audiovisual speech affects the cortical encoding of the speech envelope in humans using electroencephalography. We demonstrate that the cortical representation of the speech envelope is enhanced by the presentation of congruent audiovisual speech in noise-free conditions. Furthermore, we show that this is likely attributable to the contribution of neural generators that are not particularly active during unimodal stimulation and that it is most prominent at the temporal scale corresponding to syllabic rate (2-6 Hz). Finally, our data suggest that neural entrainment to the speech envelope is inhibited when the auditory and visual streams are incongruent both temporally and contextually.

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Section: Methodsmentioning

confidence: 99%

Congruent Visual Speech Enhances Cortical Entrainment to Continuous Auditory Speech in Noise-Free Conditions

Crosse¹,

2015

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“…The weight vector for a linear SVM is based on the Lagrange multipliers assigned to each data point. To achieve interpretable spatial patterns (Haynes, 2015), feature weights were transformed into relevance patterns through multiplication by the data covariance matrix (Haufe et al, 2014). This allowed us to dynamically and directly assess the relative importance of all virtual electrodes used in source‐space decoding, as each ROI was represented by one feature and each decoding iteration was run on the whole brain.…”

Section: Methodsmentioning

confidence: 99%

Spatiotemporal dynamics in human visual cortex rapidly encode the emotional content of faces

Dima

Perry

Messaritaki

et al. 2018

Human Brain Mapping

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Recognizing emotion in faces is important in human interaction and survival, yet existing studies do not paint a consistent picture of the neural representation supporting this task. To address this, we collected magnetoencephalography (MEG) data while participants passively viewed happy, angry and neutral faces. Using time‐resolved decoding of sensor‐level data, we show that responses to angry faces can be discriminated from happy and neutral faces as early as 90 ms after stimulus onset and only 10 ms later than faces can be discriminated from scrambled stimuli, even in the absence of differences in evoked responses. Time‐resolved relevance patterns in source space track expression‐related information from the visual cortex (100 ms) to higher‐level temporal and frontal areas (200–500 ms). Together, our results point to a system optimised for rapid processing of emotional faces and preferentially tuned to threat, consistent with the important evolutionary role that such a system must have played in the development of human social interactions.

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“…Following Haufe et al (29), linear discriminant analysis (LDA) patterns A = ða j Þ j were generated for each participant from the LDA filters M = ðm j Þ j originally used for online classification by conjugation with the features' covariance matrix C: A = CMC −1 . Spatial interpretation of these patterns for each time window reflects a mixture of scalp activations related to discriminative source activityÂ = ðâ j Þ j and classinvariant noise representation N, with A =Â + N. The latter was filtered out by weighting each pattern entry a j with the correlation of its associated feature activity vector over trials F j to the binary vector of true class labels…”

Section: Methodsmentioning

confidence: 99%

Neuroadaptive technology enables implicit cursor control based on medial prefrontal cortex activity

Zander

Krol

Birbaumer

et al. 2016

Proc. Natl. Acad. Sci. U.S.A.

128

119

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The effectiveness of today's human-machine interaction is limited by a communication bottleneck as operators are required to translate high-level concepts into a machine-mandated sequence of instructions. In contrast, we demonstrate effective, goal-oriented control of a computer system without any form of explicit communication from the human operator. Instead, the system generated the necessary input itself, based on real-time analysis of brain activity. Specific brain responses were evoked by violating the operators' expectations to varying degrees. The evoked brain activity demonstrated detectable differences reflecting congruency with or deviations from the operators' expectations. Real-time analysis of this activity was used to build a user model of those expectations, thus representing the optimal (expected) state as perceived by the operator. Based on this model, which was continuously updated, the computer automatically adapted itself to the expectations of its operator. Further analyses showed this evoked activity to originate from the medial prefrontal cortex and to exhibit a linear correspondence to the degree of expectation violation. These findings extend our understanding of human predictive coding and provide evidence that the information used to generate the user model is task-specific and reflects goal congruency. This paper demonstrates a form of interaction without any explicit input by the operator, enabling computer systems to become neuroadaptive, that is, to automatically adapt to specific aspects of their operator's mindset. Neuroadaptive technology significantly widens the communication bottleneck and has the potential to fundamentally change the way we interact with technology.human-computer interaction | passive brain-computer interfaces | electroencephalogram | predictive coding | neuroadaptive technology I n the European Union, 96% of enterprises rely on computers for their productivity (1). Advances in human-computer interaction (HCI), concerning the effective, efficient, and satisfying use of computer systems, may thus carry great societal benefits, e.g., in terms of productivity. However, although interaction techniques have become increasingly user-friendly-e.g., from punch cards to touch screens-they still depend on the user (operator) to translate their original thought or intention into a sequence of small, explicit commands (2). This translational step, where the human operator must ultimately obey the machine's logic, presents both a communication bottleneck and a source of potential error (3). At the same time, the computer has practically no limitation to the amount of information it can communicate, and is not as adaptable as its user. In these aspects, present-day HCI is asymmetrical (4). Comparing this to human-human interaction, Fischer (5) emphasizes the importance of a shared understanding of the situation and an understanding of the communication partner. In this sense, for a computer system to "understand" its user, it needs a model of that user-a source of informa...

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On the interpretation of weight vectors of linear models in multivariate neuroimaging

Cited by 1,149 publications

References 47 publications

Congruent Visual Speech Enhances Cortical Entrainment to Continuous Auditory Speech in Noise-Free Conditions

Congruent Visual Speech Enhances Cortical Entrainment to Continuous Auditory Speech in Noise-Free Conditions

Spatiotemporal dynamics in human visual cortex rapidly encode the emotional content of faces

Neuroadaptive technology enables implicit cursor control based on medial prefrontal cortex activity

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